Expanded – threaded – driven – headed – tool-deformed – or locked-thr – Headed fastener element with nut – washer – securing means or cap – Deformable securing means
Reexamination Certificate
2002-02-20
2003-12-09
Wilson, Neill (Department: 3679)
Expanded, threaded, driven, headed, tool-deformed, or locked-thr
Headed fastener element with nut, washer, securing means or cap
Deformable securing means
C411S043000, C411S082000, C411S421000
Reexamination Certificate
active
06659699
ABSTRACT:
PRIORITY CLAIM
This application is based on and claims the priority under 35 U.S.C. §119 of German Patent Application 101 07 952.4, filed on Feb. 20, 2001, the entire disclosure of which is incorporated herein by reference.
1. Field of the Invention
The invention relates to a lockbolt with a locking collar such as a swageable collar for mechanically securing two or more components, i.e. workpieces, through a hole that has been sealed with a sealant.
2. Background Information
It is generally known to use lockbolts for forming high-strength mechanical joints of two or more workpieces, for example in the field of aircraft manufacturing. The lockbolt is secured in aligned holes through the workpieces, which have been sealed or provided with a sealant. The lockbolt includes a shaft that extends through the holes in the workpieces, and a bolt head at one end of the shaft, whereby the head lies against the outer surface of one of the workpieces. The other end of the shaft that protrudes out of the opposite side of the other workpiece includes a profiled locking portion, onto which is secured a lock ring or collar, such as a swageable collar for establishing a secure force-locking and force-transmitting connection. The lockbolt further includes a break-away portion or pintail portion that is connected to the locking portion by a predetermined breaking point or so-called break-pin area, for example in the manner of a frangible neck. This break-away portion can be gripped with an appropriate tool, such as a tension-applying tool for forming the mechanically secure connection and then breaking off the break-away portion.
A lockbolt of the above described general type is disclosed, for example, in published European Patent Application EP 0,955,477. The lockbolt according to this publication has the following structure with the following components. The lockbolt includes a shaft comprising a shank for penetrating through and closely fitting into the bored holes in the components or workpieces that are to be connected. The bolt further includes a bolt head for preventing axial movement of the lockbolt within the bored holes in the workpieces. A locking portion or region of the shaft includes plural circumferentially extending annular grooves, which are engaged by a swageable locking collar for establishing a mechanical connection of the lockbolt with the workpieces. A pintail or break-away portion is connected to the end of the locking portion by a break-pin area or frangible neck, which is particularly located between the above-mentioned circumferential annular grooves of the locking portion and the pintail. When the locking collar is swaged and coupled onto the grooves of the locking portion, the pintail is released from the shank by breaking the break-pin area.
Especially according to the above mentioned EP 0,955,477, an O-ring is arranged on the break-pin area or on the pintail, i.e. generally between the locking collar and the free end of the bolt opposite the bolt head. The outer diameter of the O-ring is larger than the diameter of the shank, so that as the lockbolt, with the O-ring thereon, is inserted into the bored hole in the workpieces, the O-ring will wipe any excess undesired sealant within the bored hole and prevent this sealant from reaching and filling into the annular circumferential locking grooves. The sealant is supposed to stay on the portion of the lockbolt between the O-ring and the free end of the bolt, i.e. on the break-away pintail, without contaminating the grooves of the locking portion of the bolt.
The known arrangement of a lockbolt with a sealant-wiping O-ring is intended to prevent the undesired accumulation of sealant from the bore hole of the workpieces into the locking grooves of the bolt. Such sealant would otherwise have to be manually removed from the grooves before the locking collar can be swaged and engaged thereon. If sealant remains in the grooves when the locking collar is to be swaged thereon, then the sealant becomes trapped and encapsulated by the locking collar within these closed and continuous circumferential grooves, and therefore forms a pressurized hydraulic buffer, which prevents the proper complete swaging engagement of the locking collar into the locking grooves of the bolt.
In actual practice, while the O-ring wipes some sealant out of the bored hole of the workpieces and thus ahead of and away from the locking grooves of the bolt, some sealant nevertheless still reaches and contaminates the annular circumferential grooves. Thus the proper functionality of the mechanical swaged connection cannot be reliably and completely ensured in the event of a remaining contamination of the parts of the bolts. This is especially problematic due to the annular circumferential configuration of the locking grooves of the locking portion of the known bolts. Whenever sealant or other contaminant is present in such circumferential annular grooves, the sealant or contaminant becomes sealed and encapsulated in this closed groove by the locking collar being swaged onto the locking portion of the bolt. The sealant or contaminant thus forms a pressurized hydraulic buffer between the locking portion of the bolt and the locking collar. As a result, the locking collar cannot be properly and completely swaged onto the locking portion of the bolt shank, so that an adequate mechanical holding power cannot be achieved. Moreover, a further disadvantage is that the O-rings must be individually installed on the individual lockbolts, and after the bolt-securing process, the O-rings must be tediously removed, if they have not fallen away by themselves.
SUMMARY OF THE INVENTION
In view of the above, it is an object of the invention to provide a lockbolt of the above described general type, which is improved in such a manner so as to achieve a sufficient functional security even when the functional area between the locking portion of the bolt and the locking collar is contaminated with sealant. Another object of the invention is to simplify the work necessary for securely installing and fastening such a lockbolt. The invention further aims to avoid or overcome the disadvantages of the prior art, and to achieve additional advantages, as apparent from the present specification.
The above objects have been achieved according to the invention in a lockbolt having a bolt shaft and a bolt head at one end of the bolt shaft. The bolt shaft includes a locking portion, and a break-away portion connected to the locking portion through a predetermined breaking point. The bolt itself is arranged further in combination with a locking collar that is mechanically secured, e.g. crimped or swaged, onto the locking portion of the bolt shaft. The circumferential or generally cylindrical surface of the locking portion of the bolt shaft is provided with a knurling thereon, especially in the manner of a so-called brilliant or diamond-patterned functional area. The knurling may, for example, include an intersecting or criss-crossing pattern of spiral grooves that respectively spiral in two opposite directions around the locking portion of the bolt shaft, and form therebetween a plurality of diamond-shaped knurling peaks bounded by sloping, knurling flanks. This knurling pattern or surface configuration can be cut, pressed, molded, cast, embossed, or otherwise formed on the surface of the locking portion of the bolt shaft. Preferably, the knurling grooves extend at an angle, i.e. in a spiral configuration, from one axial end to the other of the locking portion. A sealant is provided between the knurled surface of the locking portion and the locking collar.
The knurling of the locking portion of the bolt shaft provides the necessary mechanical gripping and locking structures onto which the locking collar is deformed, i.e. crimped or swaged, in order to establish a secure mechanical connection of the locking collar onto the locking portion of the bolt shaft, and thereby to securely mechanically join the workpieces between the bolt head and the locking collar, with the bolt shaft extending through
Stoewer Udo-Henning
Turlach Gerhard
Airbus Deutschland GmbH
Fasse W. F.
Fasse W. G.
Wilson Neill
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