FI75653C - Electromagnetic disc brake. - Google Patents

Description

75653

ELECTROMAGNETIC DISC BRAKE - ELEKTROMAGNETISK SKIVBROMS

The present invention relates to an electromagnetic disc brake comprising a body, an axially movable electromagnetic coil supported on the body, an anchor plate and a brake wheel supported axially movable relative to the electromagnetic coil, non-rotatably supported on the body, spring-loaded in the meantime, a magnetic force opposite to and greater than the direction of the spring force acts, and which disc brake is provided with an adjusting device to keep the gap between the electromagnetic coil and the anchor plate substantially constant when the brake is closed.

With friction surfaces and brake wheel wear, in current disc brakes, the air gap between the solenoid coil and the anchor plate in the closed position of the brake increases, reducing the traction of the magnet and causing brake opening problems and decreasing spring force, reducing brake torque. In addition, when the brake closes, a large air gap causes a higher-than-normal speed on the anchor plate and thus a higher-than-normal force on the friction surfaces, resulting in a strong brake torque peak that strains the brake and other structure.

The operating characteristics of the brake also deteriorate and the safety of the brake suffers due to the higher level of stress and the stresses can become uncontrollable due to negligence.

DE-A-29 01 784 discloses an electromagnetic disc brake which is provided with an adjusting device for automatically adjusting the air gap, which is located in the vicinity of the outer circumference of the electromagnet.

The structure works well in adjusting the air gap between the electromagnet coil and the anchor plate, but the structure cannot keep the normal braking torque force constant, in which case the wear margin must be ensured by a properly sized spring whose force remains in a sufficiently narrow range throughout the intended adjustment range. This usually results in large variations in spring force or large springs. i 2 '75653

The object of the invention is to eliminate the above drawbacks. The electromagnetic disc brake according to the invention is characterized in that the adjusting device is stepless and arranged between the axial end of the solenoid coil and the body and that the adjusting device has a medium between the body and the axial end of the solenoid coil. By means of the invention, the traction of the electromagnetic coil will remain almost constant and there will be no brake opening problems. The spring force that produces the braking torque is also kept almost constant and the brake will not be subjected to shocks or the so-called brake torque peaks.

A preferred embodiment of the invention is characterized in that the medium of the control device consists of balls between the body and the electromagnetic coil, which are arranged to pass into tracks made at the body-side end of the electromagnetic coil, the bottom of which is made to rise in the direction of the balls. Due to its simplicity, such a control device is both inexpensive and reliable.

Another embodiment of the invention is characterized in that the medium of the control device consists of a wedge between the body and the electromagnetic coil, which due to its weight descends downwards, controlling the air gap.

Another preferred embodiment of the invention is characterized in that the control device consists of opposite screw surfaces between the body and the electromagnetic coil.

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In the following, the invention will be explained in detail with reference to the accompanying drawings, in which

Fig. 1 shows an electromagnetic disc brake according to the invention with the brake in operation.

Fig. 2 shows the same as Fig. 1, but in the position when the brake is not on, i.e. with the electromagnet connected.

Fig. 3 shows the side of the electromagnetic coil control device.

Fig. 4 shows the track part of the control device in the previous figures.

Fig. 5 shows a control device according to another embodiment.

Fig. 6 shows the second screw surface of the screw surface adjusting device.

The electromagnetic disc brake comprises a body 1, an axially movable electromagnetic coil 2 supported on the body, an anchor plate 3 sprung on the electromagnetic coil, which, due to the spring force and the magnet uncoupled, presses against the brake wheel 4 as shown in Fig. 1. The brake wheel 4 presses against the support kit 6 on the frame on the other side of the brake wheel. When the magnet is in the engaged state, i.e. the brake is open as shown in Fig. 2, the magnet 2 pulls the anchor plate 3 to release the brake wheel 4 from the anchor plate 3 and the friction plate 6. The anchor plate 3 is anchored to the body 1 so that it does not rotate so that the brake wheel 4 does not cause torque on the electromagnet coil 2. This anchoring is provided by a ankle known per se and is therefore not shown in these simplified figures.

Between the solenoid coil 2 and the body 1 there is a stepless control device which automatically adjusts the axial movement of the solenoid coil. The adjusting device moves the assembly formed by the electromagnet coil 2 and the anchor plate 3 closer to the brake wheel 4 during the friction surfaces between the anchor plate and the brake wheel. The original position on the electromagnetic coil control device side is indicated in Fig. 2 by a dotted line. The adjustment takes place when the magnet is connected, which increases the distance between the solenoid coil and the body. The main normal force of the kit caps between the brake wheel 4 and the anchor plate 3 comes to the anchor plate from the body of the electromagnetic coil 2. When the brake is closed, ie when the magnet is not connected, the control device is mainly loaded by the normal force of the friction surface, and the torque caused by the braking does not affect the control.

In Figures 1-4, the control device is formed by balls 7 between the body 1 and the electromagnetic coil 2, which, when the electromagnetic coil is rotated, travel along gently rising tracks 8. The balls 7 are provided with a rotating force, for example by means of a spring, which, whenever the disc brake is open, rotates the balls so that the balls 7 climb upwards along the track 8.

In Fig. 5, the adjusting device consists of a wedge 5 between the body 1 and the electromagnetic coil 2, which, due to its weight, lowers downwards, adjusting the air gap. Such an embodiment further requires release springs (not shown in the figures) between the anchor plate 3 and the brake wheel 4 or friction control. The axial component of the control force must not overcome the frictional force F1, because then both the electromagnetic coil 2 and the anchor plate would be pressed against the brake plate 4. Fig. 5 75653 in Fig. 6 shows a screw surface of an adjusting device according to an embodiment, which are two pieces facing each other and which rotate relative to each other, adjusting the air gap.

It will be clear to a person skilled in the art that the invention is not limited to the above-mentioned exemplary embodiments, but can be varied within the scope of the appended claims.

Claims (4)

6 75653 An electromagnetic disc brake comprising a body (1), an axially movable electromagnetic coil (2) supported on the body, an anchor plate (3) axially movable relative to the electromagnetic coil, supported on a non-rotatable body, and a brake wheel (4), the electromagnetic coil and the anchor plate tends to push them apart, and when the magnet is engaged, a magnetic force opposite to and greater than the direction of the spring force acts in the meantime, and the disc brake is provided with an adjusting device to keep the gap between the electromagnetic coil and the anchor plate substantially constant; stepless and arranged between the axial end of the solenoid coil (2) and the body (1) and that the adjusting device has a medium between the body (1) and the axial end of the solenoid coil (2), which medium is arranged to move and fill the gap between the body and the solenoid coil open. Disc brake according to Claim 1, characterized in that the medium of the adjusting device consists of balls (7) between the body (1) and the electromagnetic coil (2), which are arranged to run in paths (8) made at the end of the electromagnetic coil (1). the base is made to rise in the direction of movement of the balls. Disc brake according to Claim 1, characterized in that the medium of the adjusting device consists of a wedge (5) between the body (1) and the electromagnetic coil (2), which, due to its weight, descends to adjust the air gap. Disc brake according to Claim 1, characterized in that the adjusting device consists of opposite screw surfaces between the body (1) and the electromagnetic coil (2). 7 75653