Railway rolling stock – Trucks – Axle bearing mounting
Reexamination Certificate
2002-01-07
2003-05-27
Morano, S. Joseph (Department: 3617)
Railway rolling stock
Trucks
Axle bearing mounting
C295S036100
Reexamination Certificate
active
06568333
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a protecting device for wheel axles of a rail vehicle and a rail vehicle provided with such a protecting device.
BACKGROUND ART
Rail vehicles are equipped with wheels which usually are mounted in pairs on axles. The axles are suspended from the rail vehicles and uncovered, seen from below, to facilitate dismounting when changing wheels and when servicing the vehicle. There is a risk that stones fly up from the ground and hit the axles, which may cause cracks in the axles. The cracks can, if they are allowed to grow, result in an axle fracture. This means that it is not possible to rely on a traditional fatigue analysis of the axles, but it is necessary to make frequent inspections of the axles to find any cracks. Manual inspections of the axles on a rail vehicle are expensive, and it is desirable to dispense with the inspections. This is particularly a problem in high-speed trains since the dimensions of their axles have been minimised to reduce the non-resilient mass.
A solution to the problem has been to provide the axles with a rubber layer which has been applied to the axle. The rubber layer prevents stones flying up from causing cracks in the axles, but it is necessary to remove the rubber layer in connection with the inspections that are necessary at regular intervals. It is an expensive operation to remove and apply the rubber layer in the inspections. Applying a rubber layer to the axles thus results in a minor saving only.
There is thus a need for essentially eliminating the risk of cracks caused by stones flying up without significantly increasing the inspection cost.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a protecting device for axles of a rail vehicle.
A further object of the present invention is to provide a protecting device which prevents stones from hitting the axles of a rail vehicle.
One more object of the present invention is to provide means for essentially eliminating the risk of axle fracture on rail vehicles caused by stones flying up from the ground.
These objects are achieved with a protecting device for axles according to the appended claims.
A protecting device for a wheel axle of a rail vehicle according to the invention is characterised in that it is intended to be arranged on the wheel axle and essentially has the form of a cylindrical pipe having at least one slot extending from one end of the pipe to the other.
According to a preferred embodiment, the protecting device has essentially the form of a circular-cylindrical pipe.
By the wheel axle being provided with a protecting device, the problem with stones flying up from the ground and hitting the axle is obviated. By the protecting device being provided with at least one slot, it is possible to remove it from the axle and perform regular inspections of the axle without significantly increasing the maintenance cost.
It is in most cases necessary to arrange a plurality of protecting devices to cover the entire axle. This is the case, for example, if the axle is provided with a brake disc mounted in the centre of the wheel axle, or if the axle is mounted at a distance from both ends of the axle.
According to a preferred embodiment of the present invention, the protecting device has only one slot extending from, one end of the pipe to the other.
Preferably, the protecting device is held in place on the axle by being made of an elastic material. Alternatively, the protecting device is fastened by means of, for example, a clamping strap or the like. The protecting device can easily be removed by mechanically widening the slot so as to allow removal from the axle. It is an advantage if the protecting device is but a single part since this makes mounting of the protecting device quick and easy.
If the pipe has only one slot, it extends preferably rectilinearly along the pipe, but can alternatively extend helically along the pipe. If the slot extends helically along the pipe, it is possible to vary the required force for removing the protecting device from the axle, by varying the pitch of the helical form.
The material of the protecting device is preferably a polymer, such as rubber or plastic, but may also be some other material having suitable characteristics. The material is selected so that the axle protecting device can be bent sufficiently to permit mounting on the axle without the protecting device being damaged. A large amount of suitable plastics are available.
The protecting device suitably has at least one outer layer which is impact resistant.
According to an alternative embodiment, the wheel axle protecting device consists of at least two parts which radially enclose different parts of the wheel axle. The axle protecting device may consist of, for example, two halves of a cylindrical pipe which are joined in a suitable manner, such as by means of a screw joint. It is possible to make the protecting device of a non-elastic material in this embodiment.
According to a preferred embodiment of the invention, the inner surface of the protecting device facing the axle is softer than its outer surface. By having different degrees of hardness on the inner and the outer surface, the surface layer can be impact resistant while at the same time the soft inner surface allows the protecting device to mould itself along the axle so that there is no gap between the protecting device and the axle. This gives the advantage that water which may freeze cannot collect inside the protecting device. It also gives the advantage that the protecting device is better fixed to the axle, and that the risk of the protecting device wearing off an anticorrosion layer applied to the axle is minimised.
A radially varying degree of hardness of the protecting device can be achieved either by joining all the materials in concentric layers from the axle outwards, or by using plastic which has a gradient in percentage of foam so that the surface layer is essentially massive and the inner surface is foamed.
In the case of separate layers with different degrees of hardness, they can either constitute a joined unit or be separate.
It is advantageous to make the slot as narrow as possible to minimise the risk of stones flying up from hitting the axle. According to a preferred embodiment, the slot is narrower than 20 mm and preferably narrower than 10 mm.
According to an embodiment of the invention, it is ensured that the slot cannot be widened by a clamping device holding the slot together. The clamping device may consist of an integrated part of the protecting device or consist of a detachable part.
It is advantageous to arrange a slot protecting means which covers the slot in order to prevent material from penetrating through the slot. The slot protecting means consists of, for example, a strip which extends from one end of the protecting device to the other and substantially covers the slot.
According to a preferred embodiment of the invention, the protecting device has a thickness transversely of the wheel axle of 2-70 mm and preferably 5-30 mm. By limiting the thickness of the protecting device, it is possible to find room for it also on drive shafts, in which case the distance between the engine and the shaft is often small. By making the protecting device of plastic, the non-resilient mass in a rail vehicle is increased only marginally.
It goes without saying that the above features can be combined in the same embodiment.
In order to further elucidate the invention, detailed embodiments of the invention will be described below, without however restricting the invention thereto.
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patent: 3793703 (1974-02-01), Winkler et
Karlsson Mats
Kontio Camilla
Persson Hans
Bombardier Transportation GmbH
Connolly Bove & Lodge & Hutz LLP
Morano S. Joseph
Olson Lars A.
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