DE763322C - Electromagnetic rail and wheel friction brake - Google Patents

Description

Electromagnetic rail and wheel friction brake The increase in speed ' of rail vehicles primarily requires the availability of a reliable brake high efficiency. The effectiveness of the brakes is linked to the coefficient of friction. In order to achieve greater braking effects, the known electromagnetic Rail brake the coefficient of friction between rail and brake due to the contact pressure the electromagnet is enlarged. However, the braking distances that can be achieved here are sufficient not out yet; to ensure safe braking from high speed in the event of danger to ensure. For this reason, an increase would be required at higher speeds the signal distance necessary.

Various proposals have become known that provide a higher braking effect, d. H. greater braking decelerations, either through the use of a fluid brake or try to achieve through the braking force control. Today's brakes are based solely on the principle of the destruction or transformation of mechanical work into another form of energy. What is not taken into account here is that when using Greater braking forces also increase the adhesion of the wheel on the rail will got to. By braking, the movement of the rolling wheel must be as strong as possible and be quickly inhibited, d. H. between the trailing side of the wheel and the Rail forces must be brought into effect, which in the event of an increase in the Adhesion ability to increase the braking force. Rail brakes are also known with a magnetic field in the drain wedge between the wheel and rail that serves the purpose has, the distance between wheel and rail is independent of the load on the vehicle close. Furthermore, one knows pole shoes arranged in the drain wedge, which are on one side Wheel are effective and produce lines of force in the rotating wheel, but the rail excite only insignificantly and can be addressed as eddy current brakes.

The invention relates to an electromagnetic rail and wheel friction brake, in which the arranged in the run-off wedge of the wheel electromagnetic coil with the Axis and pivotable about it by means of variable length and its distance from the axis limiting link is connected. Thereby the division of the magnetic Energy in individual power flows through the T-shaped design of the magnetic Theorem. By connecting in series or in parallel or by tapping the windings and / or by stepped formation of the pole faces of the magnetic Theorem in the area of the wheel can be used to calculate the frictional forces with known: means, such as centrifugal governors or the like, automatically according to the rotational speed of the wheel being controlled.

Two exemplary embodiments of the invention are shown in the drawing.

Fig. I shows the arrangement of the magnetic brake in the drain wedge of a Vehicle wheel, Fig. 2 the magnetic brake on a bogie vehicle.

In the case of the brake according to Fig. I, a magnetic set i acts in the discharge wedge of wheel 2, namely the magnetic set i is connected to the axle a by means of a handlebar L or can be rotated about it, so that the brake can be used for both directions of travel if necessary. The winding 3 creates a magnetic field between the wheel 2 and the rail. generated. The air gaps 5 and 6 between the wheel and the magnetic set or rail and the magnetic set are bridged by the magnetic flux. The magnetic set i is thereby attracted to the rail .f and continues to approximate the running circle of the wheel 2 as far as the suspension within the link L allows. Through this. that the air gap 5 can be maintained except for a small value, it is ensured that a locking <les wheel does not occur when braking. The braking forces are thus generated on the one hand between the magnetic set i and the rail .t by the contact pressure; There are also braking forces due to the intermittent forces between the wheel and the magnetic assembly that arise during the rotation of the wheel.

According to the invention it is still given between the wheel and the magnetic Sentence also basically to go over to frictional braking, whereby the handlebars L through known means are designed to be variable in length so that the air gap disappears. To avoid locking the wheel, the control of the magnetic Field 7 to make dependent on the wheel speed. In addition, the The size of the pole faces or their formation also affects the braking forces in size be held that locking of the wheel is prevented. The magnetic field runs along the lines of force 7 and 7 '. In addition to the lines of force 7 and 7 'also occur lines of force S that go through the contact point of the wheel without an air gap from Pass the wheel into the rail. Of course, these lines of force will also be 8 overcome the air gap between the wheel and the rail near the point of contact and thus at the same time contribute to braking. Through this flooding of the lines of force $ or the resulting stray fields are an additional increase in the Adhesion of the wheel on the rail is achieved, which then continues the braking force at the air gap 5 can be increased without the risk of the wheel jamming admit.

Fig. 2 shows the application of the magnetic rail brake on a Bogie. If the bogie is moved in the direction of the arrow x, the magnetic Set i applied and the magnetic set i 'from the area of the second wheel pulled out, otherwise the magnetic set on the second axis would act as a stumbling block. Through appropriate training of the magnetic sentences it is given, to let both sentences act in the direction of travel by they are pivoted about the axis a.

Claims (1)

PATENTAL CLAIMS: i. Electromagnetic rail and wheel friction brake, characterized. that the arranged in the run-off wedge of the wheel electromagnetic Coil with the axis (a) and pivotable about it by variable length and their Distance from the axis limiting link (L) is connected. z. brake according to claim i, characterized in that the division of the magnetic energy into individual power flows (7, 7 'and 8) due to the T-shaped design of the magnetic Theorem (i) is caused. 3. Brake according to claims i and 2, characterized in that that by series connection or parallel connection or tapping of the windings (3) and / or by stepping the pole faces of the magnetic set (i) the frictional forces in the area of the wheel by means known per se, such as centrifugal governors or the like, are automatically controlled according to the rotational speed of the wheel. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German Patent Specifications No. 384 926, 542 704 6o3 922; French patent specification No. 827 515.