DE1019873B - Pressure fluid operated disc friction brake, in particular caliper brake - Google Patents

Description

Disc friction brake operated by pressure medium, in particular caliper brakes The invention relates to fluid-operated disc friction brakes, in particular Caliper brakes in which the brake protection guide is designed as a pressure cylinder is. There are brakes of this type known in which the brake shoes perpendicularly against the brake disc are pressed. However, these devices have the disadvantage that no self-reinforcement of the braking effect can be achieved with it.

To avoid this disadvantage, the brake shoe guide according to the invention arranged so that they form an angle with the friction surface of the brake disc, greater or less than 90 °. The brake shoe can mean in its leadership Rolling bodies be stored.

According to the invention, an automatic change in the size of the self-reinforcement can be achieved in that the brake shoe guide can be pivoted about an axis, those perpendicular to the longitudinal axis of the brake shoe guide and parallel to the brake disc runs.

Further details of the invention are the following description as well as the illustrations. Fig.1 shows one in both directions of rotation effective hydraulically operated disc brake in a schematic representation, Fig. 2 a special version of the brake shoe guide, Fig. 3 the pivoting arrangement of brake shoe guides in section, Fig. 4 a device according to Fig. 3 in view and. partial section, Fig. 5 another embodiment of a disc brake and Fig. 6 the operation of a disc brake. ' parallel to each other as well pressure cylinder arranged for the brake disc.

A brake disc 1 (Fig. 1) is on either side of braking devices 2 or 3, which are connected to one another by a bridge 3 '. Every these devices consists of two brake shoe guides 4 and: 5, the one have common pressure medium supply 6. The brake shoes wear on their other End of brake pads 10. The axes of the brake shoe guides 4 and 5 close with the Disk 1 an acute angle.

If a pressure medium is supplied via the supply line 6, move it the brake shoes 7 and 8, as a result of which the brake linings 10 are pressed against the disc 1 will. As a result of the acute angle at which the axis of the brake shoe guide is arranged to the brake disc, a self-reinforcement is achieved, namely in Exemplary embodiment on the brake shoes 7 in one direction of rotation of the brake disc in the direction of the arrow, on the brake shoes 8 in the opposite direction.

The size of the self-reinforcement depends on the one hand. Coefficient of friction of the Lining and on the other hand from the angle at which the brake shoe guide to Brake disc is inclined.

A special embodiment of the brake shoes and the brake shoe guide is shown in Fig. 2. Pressure cylinders are on both sides of the rotating brake disk 11 12 fixedly arranged, for example on the supporting frame 13 shown schematically.

The pressure cylinder 12 serves as a brake shoe guide for the brake shoes 14, which are mounted with the interposition of rolling elements 15. The brake shoes 14 are provided with brake pads 16.

For actuation, the pressure medium bodies 17 are displaced and act via pressure pieces 18 on the brake shoes.

The brake shoes 14, the frictional heat generated during braking absorb, lie freely in the air stream, so that a good heat transfer takes place. The rolling elements are arranged inside the brake shoe, so that contamination is excluded.

Figures 3 and 4 show an embodiment in which the brake shoe guides 19 are pivotally mounted in their carrier 20 at 21.

The swivel range is on the one hand by the fixed Stop 22 of the carrier 20 is limited and will on the other side influenced by a spring 23, which is with its free end on shoulders 24 of the Support 20 is supported. The brake shoe 25 is designed as a pressure medium piston. Of the Brake shoe lining carrier 26 is hinged to the brake shoes at 27.

When a pressure medium is supplied, the piston-like brake shoe 25 shifted and thereby the brake lining with its lining carrier 26 on the disc 1 adapted.

By driving the lining carrier 26 through the disk 1, a Pivoting of the brake shoe guide 19 caused against the action of the spring 23, which causes the change in the size of the self-reinforcement.

While in the embodiment according to Fig. 3 and 4, the self-reinforcement is increased as the braking force increases, the reverse effect occurs with a device according to Fig. 5. Self-reinforcement is achieved here by the pivoting of the brake shoe guide decreased.

This effect then occurs in contrast to the previous explanations one if the brake cylinder and brake shoe are on different sides of the brake disc or if the cylinder and the shoe are on the same side of the brake disc, the pivot point of the brake shoe guide but not between the brake cylinder and the brake shoe is, as shown, but outside.

The brake lining carrier 38 (Fig. 5) is with the hinge pin 39 on the brake shoe 40 pivotably mounted, which is displaced by the piston 42 via a pressure piece 41. The pressure cylinder 43 is designed as a guide for the brake shoe 40 and at 44 pivotally mounted on the support frame 45. This has a fixed stop 46 for Limitation of the swivel range on one side and one against a stop 47 applied compression spring 48 for elastic support of the cylinder 43. The brake disc 1 lies between the cylinder 43 and the. Brake pad carrier 38.

As in the case of the aforementioned embodiments, the Example according to Fig. 5, preferably an arrangement of such brake shoes in pairs are provided.

In Fig.6, a brake disk 28 is effective in both directions of rotation Disc brake shown. In the housing 29 are two double-acting pressure cylinders 30 provided, in which pistons 31 and 32 in opposite directions by the Pressure medium are actuated. The pistons act on brake shoes 33 and 34, which are below Rolling interposition of rolling elements on inclined surfaces 36 of the housing 29, whereby the linings 37 are pressed against the disk 28. Depending on the direction of rotation of the Disc 28 creates a self-energizing effect with either the brake shoes 33 or 34.

All devices are suitable for braking rotating disks as well as any other body, also for braking the movable carrier the braking device on fixed braking tracks, such as. B. rails or the like.

Claims (1)

PATENT CLAIMS: 1. Pressure medium-operated disc friction brake, in particular caliper brake, in which the brake shoe guide is designed as a pressure medium cylinder, characterized in that the brake shoe guide (4, 5, 12, 19, 36, 43) with the friction surface of the brake disc (1, 11, 28) forms an angle greater or less than 90 °. z. Brake according to Claim 1, characterized in that the brake shoe (14, 33, 34) is mounted in its guide by means of roller bodies (15, 35). 3. Brake according to claim 1, characterized in that the brake shoe guide (19, 43) is pivotable about an axis (21, 44) which is perpendicular to the longitudinal axis of the brake shoe guide (19, 43) and parallel to the brake disc (1), wherein the brake lining carrier (26, 38) is hinged to the brake shoe (25, 40). 4. Brake according to claim 1 and 3, characterized in that the brake lining carrier (26) with its actuating device (19, 25) is arranged on the same side of the brake disc (1). 5. Brake according to claim 1 and 3, characterized in that the brake disc (1) lies between the brake lining carrier (38) and its actuating device (40 to 43). 6. Brake according to claim 3 to 5, characterized in that the pivoting range of the brake shoe guide (19, 43) is limited by stops (22; 24 or 46, 47), a spring (23, 48) between one of the two stops (24, 47) and the brake shoe guide (19, 43) is arranged, which presses the brake shoe guide (19, 43) against the second stop (22, 46) in the brake release position. 7. Brake according to claim 1 and 2, characterized in that the brake shoe (14) surrounds the pressure cylinder (12) serving as a brake shoe guide in a manner known per se and the piston (17) of the cylinder (12) via a pressure piece (18) acts on the brake shoe (14). B. Brake according to claim 1 and 2, characterized in that the brake shoes (33) are acted upon by means of pressure cylinders (30) arranged parallel to the brake disc (28). 9: Brake according to claims 1, 2 and 8, characterized in that the brake shoes (33, 34) are arranged to act in opposite directions and are acted upon by the pistons (31, 32) of an intermediate pressure cylinder (30) or a mechanical actuator. Documents considered: German Patent No. 741 611 ; French patent specification No. 985149.