Bearings – Linear bearing – Combined with seal or guard
Reexamination Certificate
2002-10-24
2004-06-15
Hannon, Thomas R. (Department: 3682)
Bearings
Linear bearing
Combined with seal or guard
C384S045000
Reexamination Certificate
active
06749338
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to arranging a cover band on a linear guide for closing holes in a guide rail which holes receive fastening screws.
Cover bands are used in linear bearing arrangements in which rolling-contact-body recirculation units are guided on profile rails. Such guide rails are used on machine tools. As the guide rails are parts which are subject to wear, they must be changed periodically. Therefore, they are often fastened to the machine frame with screws. The cover band covers the holes in the profile rails of linear guides in a flush manner. The cover band makes it considerably simpler and quicker to fit the rails. The cover band makes it unnecessary to close each individual hole.
To close the fastening screw holes of a guide rail, it is known to provide the guide rail with a groove-shaped recess aligned with the fastening holes. The cover band is appropriately inserted into the groove-shaped recess. Such arrangements are shown, for example, in prior art publications DD 237 805 A1 and EP 0 311 895 A1. The cover band is often adhesively bonded to the guide rail inside the groove-shaped recess. However, there is a risk that the adhesive bond may become loosened. The adhesive-bonding contact surface must then be cleaned in order to fit the cover band in the groove again. The adhesive-bonding technique for the cover band is meanwhile becoming increasingly less acceptable in general mechanical engineering and in machine tool building, because the cover bands, of many users often loosen under the effect of emulsions. Therefore, there have been complaints about this type of connection.
DE 195 24 810 A1 shows an arrangement of the type mentioned at the beginning in which the cover band consists of a top layer and a bottom layer fastened to the top layer. Two retaining strips are formed by regions which are bent at the two longitudinal sides of the bottom layer. This prior art does not indicate the way in which the two layers are fastened to one another. However, the adhesive-bonding technique, for example, is suitable for this. The top layer of the cover band bears inside the longitudinal groove against lateral bearing surfaces of the guide rail. These surfaces have been produced by milling webs, by setting the webs at an angle with press rollers and by subsequent grinding. This results in expensive manufacture. In addition, this cover band has no means of support on the guide rail in its center region inside the longitudinal groove. This has the risk that the cover band may bend and arch. As a result, the adhesive bonding of its layers and the sealing at its outer surface may be impaired.
SUMMARY OF THE INVENTION
The object of the invention is to develop a cover band which, primarily due to its shaping in combination with the shaping of a correspondingly configured rail groove, is held in the rail groove in a positive-locking and reliable manner.
The cover band is inserted in a longitudinal groove of the guide rail. The outer surface of the cover band is arranged in the plane of a wiping or outer surface of the guide rail. The guide rail has two retaining strips for the fastening. The retaining strips extend in the longitudinal direction of the guide rail and are arranged to bear inside the longitudinal groove against lateral groove walls of the guide rail which define the longitudinal groove. The cover band is comprised of an outer layer that acts as a facing layer and of an inner layer that acts as a deformation layer. The inner layer contains the retaining strips. It is also fastened to bear against the outer layer.
According to the invention, that the outer layer and the inner layer of the cover band are made of two different materials which are inseparably connected to one another mechanically by cold roll bonding.
In this case, the outer layer may be made of a corrosion-resistant steel and the inner layer may be made of pure aluminum. Each lateral groove wall of the guide rail may have an undercut of concave cross section for accommodating material of the inner layer.
The two longitudinal margins of the inner layer may be designed as lips. The cover band is first partly inserted into the longitudinal groove of the guide rail, and it can then be completely rolled into place. The lips of the inner layer are displaced into the undercuts of the guide rail and are shaped into retaining strips. However, it is also possible for the cover band to be snapped completely into the longitudinal groove of the guide rail. The two longitudinal margins of the inner layer are designed as retaining strips having arched portions, which are arranged in the undercuts of the guide rail to act as flexible snap lips.
The cover band of the invention is therefore made of two different materials, for example steel and aluminum, which are inseparably connected mechanically by cold roll bonding. On account of its homogeneity, the steel/aluminum composite is retained even during extreme shaping. A heat treatment (soft annealing) after the cold roll bonding makes it possible, on account of the non-overlapping temperature ranges during heat treatment of steel and aluminum, to act specifically on the material grade of the aluminum without reducing the desired strength of the outer layer acting as facing layer, which strengthens had been achieved by the cold working.
The high-strength corrosion-resistant steel X-10CrNi18-8 may be used for the facing layer. The material for the inner layer which acts as a deformation layer, may be of pure aluminum. Such an aluminum layer is used in a soft state if roll-in profiling is formed by non-cutting shaping in its cross section on both sides in the longitudinal direction of the cover band. In this variant, the cover band is inserted into the longitudinal groove of the guide rail, which is provided with an undercut. The band is rolled into the guide rail with a special rolling-in tool. In the process, load peaks occur during the rolling-in due to the projection of the lips. These load peaks cause the material lip to engage in the groove undercut toward the outside in a positive manner.
On the other hand, the inner layer made of pure aluminum is in a hard state when snap profiling is rolled into its cross section along both sides in the longitudinal direction of the cover band. Without auxiliary means, the cover band then snaps into the longitudinal groove of the guide rail due to this special profiling. The profiling in the cover band is configured such that a freely shaped snap lip can move in each case transversely to the longitudinal direction of the cover band. This snap lip then engages in the undercut of the rail groove.
The cover band according to the invention is reliably held in the guide rail by positive locking. This permits cost-effective manufacture. The cover band can be rolled up due to its simple and relatively narrow band cross sections. The cover band is corrosion-resistant due to the use of X-steel (chrome
ickel steel) and aluminum.
Other material combinations, for example, steel and copper, are also possible for use with the technology of cold roll bonding. In general, steel can be combined with materials which differ markedly from steel in their yield stress.
REFERENCES:
patent: 5622433 (1997-04-01), Suzuki et al.
patent: 6502988 (2003-01-01), Koch et al.
patent: 6629779 (2003-10-01), Mischler et al.
patent: 237805 (1986-07-01), None
patent: 19524810 (1997-01-01), None
patent: 0311895 (1989-04-01), None
patent: 1184584 (2002-03-01), None
German Search Report.
“Aluminum-Taschenbuch”,Aluminum-Verlag GmbH, Düsseldorf, Germany, 1974, 13.Aufl., pp. 926-927.
Hannon Thomas R.
Ina-Schaeffler KG
Ostrolenk Faber Gerb & Soffen, LLP
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