This application claims priority based on European patent application EP 07 023 255.8, filed Nov. 30, 2007.
The invention pertains to a hollow roll with a roll body, each end of which is closed off by an end piece inserted with an exact fit into the roll body.
Rolls of this type come in a wide variety of diameters and are used, for example, for crimping and carding fibers to prepare them as textiles. Such rolls are also used in systems which transport a web of material for processing, particularly in cross lappers, to produce uniform fiber layers having a specific width or thickness. These rolls may operate at high speeds and high revolutions per minute (rpms), which means that they must be able to run true. This can be achieved by subjecting the roll to very precise machining on a lathe.
The end pieces of a roll are usually welded into the roll body, and bearing journals are then welded to the end pieces. More specifically the rolls are one-piece products, which, after the components have been welded together, must be machined to allow the roll to run true. In the case of large-diameter rolls, there is a correspondingly large difference between the diameter of the lateral surface of the roll and the diameter of the bearing journal. In such situations these two different diameters cannot both be produced efficiently on the same lathe. That is, the journal cannot be cut down at the high speed necessary for a small diameter, because the large diameter of the roll requires that a large lathe be used. A large lathe does not provide the desired high cutting speeds. In addition, long rolls are difficult to properly support on appropriate steady rests when the journals are to be machined.
DE 203 13 443 U1 describes a hollow roll which can be produced more efficiently. For this purpose, the bearing journal and the end piece to which the bearing journal is attached are made as a single, separate unit. The combination of the bearing journal and end piece is typically machined to obtain its final configuration prior to being inserted to achieve a precise fit into the previously finish-machined roll body. In this way, it is possible to produce the bearing journal and its associated parts on suitable machines before the journal is attached to the roll body. This allows the roll body to be produced separately on a machine designed to handle larger dimensioned workpieces.
Securing the end piece in place in the roll body is accomplished in the known design through the use of a retaining ring in the roll body, which is secured to the associated end of the roll by a securing ring such as a Seeger® ring or the like. The ring is seated in an annular groove formed in the inside wall of the roll body. After the end piece has been inserted into the end of the roll body, bolts or other suitable fasteners are then used to secure the end piece to the retaining ring.
Hollow rolls are also known in which each end piece comprises an outside thread, whereas each end of the roll body comprises an inside thread complementary to the outside thread. The end pieces can thus be screwed by these threads into the roll body. Producing the inside threads, however, is just as laborious as cutting down the outside circumference of the roll body on a lathe.
An annular groove or a thread, furthermore, cannot be produced in the inside circumference of a hollow roll in cases where the wall of the hollow roll is relatively thin. This is the case when using lightweight hollow rolls, and especially in cases where the roll is made of plastic material, because the groove or thread would weaken the material too much.
It is an object of the invention to provide a hollow roll of the type indicated above which makes it possible to attach the end piece securely to the roll body even in the case of roll bodies with thin walls.
According to an aspect of the invention, the end piece is permanently connected to the roll body in the axial direction not by a positive-locking connection but rather by means of an adhesive bond, which provides a combination of a non-positive connection and a positive connection. A purely adhesive bond between the circumference of the end piece and the inside wall of the roll body, however, would make it impossible to guarantee a precise fit between the end piece and the roll body, because there will always be the danger that, upon insertion of the end piece into the roll body, the adhesive applied to it or to the outside surface of the end piece will be displaced from the adhesion surfaces. A purely adhesive bond and a precise fit are therefore mutually exclusive. The invention solves this problem by using an end piece which is provided with at least one groove, preferably a spiral groove, on its circumference, and by filling this groove completely with adhesive. The adhesive adheres to the inside wall of the roll body, where it produces a non-positive connection, and it also adheres to the walls of the groove, where it also produces a non-positive connection. Superimposed on this, however, is the positive connection which the adhesive produces with the end piece after the adhesive has cured in the open channel of the groove.
By implementing certain special measures, it is possible to ensure that the groove is completely filled in the finished state of the inventive hollow roll. Because, after the roll body and the end piece have been assembled, both ends of the open channel of the groove lead to the outside, it is possible, after the end piece has been fitted into the roll body, to force adhesive from the outside into one of the open connections of the groove until the adhesive starts to come out of the other connection. It is therefore possible in this way to be certain that the entire length of the groove has been filled with adhesive.
The groove can comprise one or more threads. The connection of the groove to the outside can be produced by radial openings in the lateral surface of the roll body or by channels in the end piece extending in the axial direction and leading to the outside. In any case it must be ensured that the adhesive, as it is being forced into the groove, cannot emerge into the hollow space of the roll. This is necessary to assure proper filling of the groove and to prevent adhesive from escaping into the hollow space of the roll causing the roll to become unbalanced.
The connection of the open channel of the groove to the outside, which allows the injection and monitoring of the inflow of the adhesive into the groove, can in the simplest case take the form of radial bores in the lateral surface of the roll body, which lead to the terminal areas of the groove. If the surface of the roll body is to remain as intact as possible, an alternative form of the invention provides that at least one blind channel is formed in the roll body for each groove. This blind channel is parallel to the axis of the roll, opens out into the end surface of the end piece, and is connected to the end of the associated groove by means of an essentially radial bore. Both ends of the open channel of the groove can be connected by such channels to the outside of the roll and end piece combination. In the alternative, only one end of the open channel may be connected to the outside of the roll and end piece, the other end of the open channel leading to the outside through a bore in the lateral surface of the roll body.
It is preferred that the groove should occupy a substantial, and alternatively the largest possible, area of the part of the end piece which is inserted into the roll body, so that a sufficiently large adhesive surface is obtained and in contact with the roll body. In a preferred embodiment, it is desirable for the groove to occupy at least half of the surface area of the part of the end piece seated in the roll body. In this regard, alternative embodiments include a groove with a meandering type channel, an offset type channel or the like.
The invention is explained in greater detail below on the basis of the attached drawings, which show preferred embodiments.
Plug-like section 2 is provided with a spiral groove 5 on its circumference surface, which occupies more than half of the circumferential surface area of plug-like section 2, as illustrated in the preferred embodiment. At its free end, plug-like section 2 is slightly beveled to make it easier to insert the end piece into the roll body of the hollow roll.
Two radial bores 7 are formed in roll body 6 at points which align with the ends of spiral groove 5, which has been formed in the circumference of plug-like section 2 of end piece 1. Bores 7 can be aligned with the ends of spiral groove 5 either with the help of a mark on end piece 1 or by rotating end piece 1 into roll body 6 as far as possible until it can be verified that bores 7 are aligned with groove 5 by the use of a feeler pin introduced into one of bores 7 or by introducing a free-flowing medium into one of bores 7.
Roll body 6 consists preferably of a glass fiber-reinforced or carbon fiber-reinforced plastic to reduce its weight. The inside of end piece 1 is also cut out to save weight, as can be seen in
End piece 1, as shown in
Finally,
It is also possible to combine the embodiment of
While the invention is shown in several forms, it is not limited to those embodiments or examples illustrated, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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EP 07 023 255.8 | Nov 2007 | EP | regional |