Games using tangible projectile – Projectile – per se; part thereof or accessory therefor – Arrow – dart – or shuttlecock; part thereof
Reexamination Certificate
2003-05-15
2004-05-25
Ricci, John A. (Department: 3712)
Games using tangible projectile
Projectile, per se; part thereof or accessory therefor
Arrow, dart, or shuttlecock; part thereof
Reexamination Certificate
active
06739992
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to an arrowhead for attachment to a cylindrical shaft of an arrow and having an impact tip and a shaft-receiving area, and to a method of attaching an arrowhead to the cylindrical shaft of an arrow.
2. Description of the Prior Art
In archery, among other things, arrows are used that are generally made as a cylindrical wooden rod to an end of which an arrowhead in the form of a slip-on or screw-on fitting is attached. As a rule, the arrowhead is made of a metal such as steel, brass, aluminum, or stainless steel.
It is known from the state of the art for the arrowhead fitting to have a conical bore into which one shaft end of the wooden rod is inserted. Here, it is always necessary for the cylindrical shaft end of the arrow body to undergo prior working so that it will have a corresponding conical shape. As a rule, a sharpening device is used that is specially designed for such a purpose.
Such a connecting technique in which the conical shaft end of the wooden rod has to be practically pressed on and attached by an adhesive has a drawback that consists in that the connection already comes loose after the arrow has been: used just a few times, since the connection cannot withstand strong tensile forces, especially when the arrow is being pulled out of a target. Moreover, the use of glue causes a deviation in the coaxiality that exists between the arrowhead fitting and the wooden arrow body and that is necessary for satisfactory accuracy of the flight path.
With this object in mind, it is known from the state of the art, for example, from German utility model DE 297 11 254 U1, to provide the conical bore with an additional, self-cutting internal thread into which the corresponding conical shaft end of the wooden rod can be screwed.
However, this solution still has a disadvantage which consists in that the proper centering of the cone being used depends to a great extent on the exact fit between the shaft diameter of the arrow body and a standard sharpener used for this purpose, which can certainly have an effect on the aiming accuracy. Moreover, it is amply known from actual practice that, with this connection solution as well, a bit of glue has to be added in order to obtain a satisfactory final attachment of the arrowhead. So far, it has not been possible to prevent the connection from coming loose as a result of impact when the arrow has struck a hard object several times.
When the arrowhead fitting, which is stuck in the target and which has a conical right-handed thread according to the above-mentioned state of the art, is turned a few times to the left in order to remove it, then the effect already occurs that the thread flanks of this right-handed thread can no longer grasp any material on the wooden rod and consequently the arrowhead comes off the shaft.
Moreover, another known drawback is that, through the prior working of one shaft end of the arrow body in order to give it a conical shape, this shaft end is considerably weakened due to the reduction of its diameter, whereby, in view of the enormous impact forces that occur when the arrow strikes the target, the shaft end can very easily break and splinter.
Moreover, the known arrows used for archery entail a familiar problem that appears especially when such arrows are pulled out. When it comes to targets, as a rule, the arrowhead penetrates about 15 to 20 cm into the material. The arrows of this type are designed in such a way that the arrowhead and the shaft have the same diameter, with the consequence that both components of the archery arrow, which are made of different materials, are gripped non-positively over this entire penetration depth. Consequently, such an arrow can hardly be pulled out without using turning motions. As a result of the right-handed thread that is provided, if the arrow is pulled out by inadvertently turning the arrow body to the left, the arrowhead fitting becomes detached from the shaft of the arrow body and remains stuck in the material of the target.
In the light of the drawbacks described above, the object of the present invention is to simplify the attachment used for an arrowhead, whereby the latter should be readily replaceable and the connection that exists between the arrowhead and the arrow body should have a longer service life.
SUMMARY OF THE INVENTION
This and other objects of the present invention are achieved by providing an arrowhead the receiving area of which has a centering section followed by an internal thread and a sheathing section; and by providing a method of attaching the arrowhead to the shaft in which the shaft is screwed into the internal thread.
According to the invention an arrowhead geometry that is newly designed in many areas is provided whose essential characteristics lie primarily in the area of the shaft receptacle.
The arrowhead fitting or the arrowhead according to the invention is characterized in that a receiving, area of the arrowhead that lies opposite from the impact tip that penetrates the target is divided into three sections or areas that differ in terms of their function but that interact as a whole to ensure a permanently impact-resistant and pull-proof connection that is also centered and detachable. These sections are:
a centering section that is arranged immediately behind the impact tip, for purposes of centering the arrow body when it is assembled or screwed in, in order to provide sufficient coaxiality for an accurate flight path;
an internal thread that adjoins the centering section, seen opposite from the direction of flight, that serves to create a detachable connection; and
adjoining said internal thread, a sheathing section that surrounds the shaft of the arrow body to such an extent that it prevents splintering as a result of the impact against the target.
In one embodiment of the invention the internal thread is a self-cutting thread, preferably a wedge-edge thread, whose wedge flanks are oriented in the direction opposite to the direction of flight of the arrow.
The wedge-edge thread is such that ring-shaped impact or striking surfaces are formed that are perpendicular to the axis of the arrow body and that can effectively absorb the impact forces when the arrow penetrates the target.
It is clear that, through the one-sided flattening of the thread shape of the internal thread in the form of a wedge-edge thread, especially as a result of the wedge flanks being oriented towards the inside, when the arrow body is twisted in, on one hand, a force-locking connection is obtained and, on the other hand, thread furrows are formed on the shaft end of the arrow body.
Thanks to the design according to the invention of the arrowhead, a permanently impact-resistant and pull-proof connection is ensured between the arrowhead and the arrow body, while at the same time, this connection can be detached again at any time in a simple manner.
Since the internal thread as well as the entire receiving area of the arrowhead are essentially cylindrical in shape, a conventional cylindrical shaft end of an arrow body can be screwed in. There is no need for a corresponding prior working of the shaft end to give it a conical shape.
In another embodiment of the invention, the receiving area has at least one, preferably two, conical sections with differing tapering slants near the end of the receiving area, that is to say, before the internal thread in the direction of the arrowhead. Such a section facilitates the centering of the arrow body when it is being screwed into the arrowhead. When the arrowhead is being screwed in, due to the pressing forces that occur during the self-centering procedure, the material of the shaft end, which is generally made of wood, is pressed together in the area of these centering conical sections. Furthermore, this pressed material also serves to absorb some of the impact forces in the same manner as the conical surfaces of these sections themselves.
At the base of the receiving area, that is to say, at the end of the centering section, there is another
Gebr. Kümmerle GmbH
Ricci John A.
Sidley Austin Brown & Wood LLP
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