DE3838438A1 - SLIDING GUIDE, ESPECIALLY FOR HYDRAULIC DISC BRAKES AND METHOD FOR COATING THEM - Google Patents

Abstract

A brake caliper 6 which engages around a brake disc and brake shoes, is slidingly mounted on a brake carrier 5 by means of a pin 2 and is provided with piston 1, the piston 1 and/or pin being equipped with nonmetallic nonorganic materials 3 e.g. coatings of ceramic or enamellar materials in the sliding surfaces. The coatings may be applied to the sliding surfaces by means of plasma spraying. <IMAGE>

Description

The invention relates to a sliding guide, in particular for hydraulic disc brakes according to the preamble of Pa claim 1, and a method for coating Slideways according to the preamble of the claim 11.

Such a guidance system is shown, for example, by the Of Application 22 11 453. With this floating saddle part brake pads are in the caliper on both sides of the Brake disc, encompassing the brake disc, brake pads on ordered by an axial sliding movement of the piston are pressed against the brake disc in the brake caliper, whereby the brake caliper relative to the brake carrier via a bolt sliding guide moves smoothly.

With such a construction, in which the actuator forces occurring against the piston essentially from egg support bolts can be added to long-term caused signs of wear on the guide surfaces in the loading rich in the pin guides and heating phenomena on Pistons cause the brake system to fail.

The invention is therefore based on the object that was known to improve te sliding guidance in that also at Prolonged brake application phases damage the Füh  surfaces and piston overheating is prevented.

This object is achieved by the patent pronounced 1 characteristic features solved. A procedure for Claim 11 contains sliding surface coating.

With the solution according to the invention, a narrow tolerance is tolerated and slide-optimized pistons and / or pin guide fen, which are unconditional in the entire operating temperature range remains limited.

For their function, namely the guidance of the saddle and the Transfer of the hydraulic pressures in the caliper to the To fulfill pistons, the sliding guide shows according to constructive saddle conditions a very low Coefficient of friction. In addition, with the invention Piston and pin coating the formation of fretting corrosion prevents so that the guides of pistons and bolts very long exposure times in any case functional remain capable. As further advantages of ceramic coating of the piston is excellent thermal insulation and ver wear resistance due to the high surface hardness mention. The total elimination is equally remarkable lubrication while pairing a ceramic-coated bolt with a ceramic-coated Guide or socket.

Embodiments of the invention and its configuration are shown in the drawings and in the following be wrote.  

Show it

Fig. 1 shows a partial section of a brake caliper of a lagscheibenbremse Teilbe,

Fig. 2 is a sectional view in the mounting and guide plane of the bolt between the brake caliper and brake carrier with cast ceramic sleeve,

Fig. 3 is a sectional view in the mounting and ceramic coated guide plane of the bolt between the brake caliper and brake carrier.

In Fig. 1 is a partial section through a brake caliper 6 can be seen, the cast brake caliper 6 in wesent union has a plier-shaped contour, so that the brake caliper 6 with a first, radially extending angle 11 , a bridge part 12 and a Bremsylinderge housing 13 encompasses a brake disc not shown in the drawing. In the brake cylinder housing 13 , the ke ramisch coated piston 1 is guided radially, and by means of a profile rubber seal 14 and a protective cap 15 in two radially inner circumferential grooves of the brake cylinder housing 13 , which radially enclose the shaft of the piston 1 , ge against hydraulic gap losses and external dirt deposits gene sealingly protected . In addition to the ceramic coating 3 of the piston 1 , a ceramic coating of the wall in the cavity 16 of the brake cylinder can also be carried out. This results in good sliding properties due to small friction coefficients, as well as an elimination of corrosion phenomena and a considerable reduction in heat transfer to the adjacent surfaces. At a distance parallel to the axis of symmetry of the piston 1 , a leg-shaped pin housing 16 is in a spatial arrangement as a cast part of the Brake caliper 6 with a bore (not shown in FIG. 1) for receiving the bolt 2 , so that the bolt 2 is axially slidably protected in the brake carrier 5 by a rubber sleeve 17 . The mounting hole 18 shown in section of the brake carrier 5 serves to receive a retaining screw on the wheel suspension of the motor vehicle. Below the housing for receiving the bolt 2 in the brake caliper 6 , a damping sleeve 19 can be seen in part, which surface is held by a collar on both sides of the associated end face of a housing bore in the brake caliper 6 and for receiving an axially displaceable guide bolt serves.

In Fig. 2 is partially the leg-shaped pin housing 16 of the brake caliper 6 and the bore 4 in the brake carrier 5 in the axial longitudinal section to the slide plane Darge, the inserted in the bolt housing 16 of the brake caliper 6 bolt 2 with its ceramic-coated shaft portion 10 axially slidably in the ceramic made and cast bushing 9 of the brake carrier 5 leads GE, so that 2 optimal sliding and corrosion protection measures are ensured by the use of ceramic materials in the wear-prone guide of the bolt. To reduce weight, the bolt 2 in the brake carrier 5 is designed as a sleeve. In order to exclude contamination in the gap between the brake caliper 6 and the brake carrier 5 , a circumferential groove 20 in the brake caliper and brake carrier end face includes the rubber sleeve 17 , so that the exposed shaft of the bolt 2 is protected in the gap.

Fig. 3 shows in meridian section the partially shown leg of the brake caliper 6 and the brake carrier 5 with the storage of the ceramic-coated bolt 2 in the cylindrical bore 4 of the brake carrier arm, analogous to FIG. 2 on the bolt 2 between the brake caliper 6 and the brake carrier 5 Ends of a rubber sleeve 17 in two axially circumferential grooves 20 of the brake caliper 6 and carrier 5 are fastened, whereby the penetration of dirt and moisture does not occur in the intermediate space. For weight reduction, the bolt 2 in the brake carrier 5 is sleeve-shaped. Instead of the sleeve 9 cast in the brake carrier 5 , the figure discloses a ceramic coating 3 in the bore 4 of the brake carrier 5 .

The method for coating sliding guides provides that the ceramic material is applied by plasma spraying depending on the subsequent processing operations in a defined layer thickness on the essentially translationally sliding surfaces of the bolt 2 and the piston 1 and in the bore 4 associated with the brake carrier 5 becomes.

Reference symbol list:

1 piston
2 bolts
3 coating
4 hole
5 brake carriers
6 brake caliper
7 cavity
8 fret
9 socket
10 shaft section
11 legs
12 bridge part
13 brake cylinder housing
14 profile rubber sealing ring
15 protective cap
16 bolt housing
17 rubber sleeve
18 mounting hole
19 damping sleeve
20 groove
21 threaded connection

Claims (11)

1. Slideway, in particular for hydraulic part-pad disc brakes, with an arranged on a brake carrier, a brake disc and brake shoe encompassing brake caliper, the brake caliper at least having a piston and / or a pin which are guided in assigned bores, thereby ge indicates that the translationally sliding piston ( 1 ) and / or pin ( 2 ) have non-metallic, inorganic materials in the sliding surfaces. 2. Slideway according to claim 1, characterized in that at least the bolt ( 2 ), which absorbs the main forces during braking, is provided with a coating ( 3 ). 3. Slideway according to claim 1 or 2, characterized in that at least the bore ( 4 ) in the brake carrier ( 5 ), the associated bolt ( 2 ) essentially absorbs the main forces during braking, is provided with a coating ( 3 ). 4. Slideway according to one of claims 1 to 3, characterized in that the piston ( 1 ) in the brake caliper ( 6 ) has a coating ( 3 ) consisting essentially of a ceramic or enamel-like material, the ceramic layer thickness on the sliding surfaces of the Piston ( 1 ) is only a fraction of the layer thickness in the cavity ( 7 ) and on the annular collar ( 8 ) of the piston ( 1 ). 5. Slideway according to one of claims 1 to 3, characterized in that it is in the coating ( 3 ) of the bolt ( 2 ) and bore ( 4 ) is a ceramic or enamel-like material. 6. Slideway according to claim 1, characterized in that the sliding surface of the bolt ( 2 ) in the brake carrier ( 5 ) from a, ceramic materials on facing bushing ( 9 ) is formed. 7. Slideway according to claim 6, characterized in that the substantially ceramic basic substance containing bushing ( 9 ) in the brake carrier ( 5 ) is at least non-positively held, preferably in the brake carrier ( 5 ) is cast. 8. Slideway according to at least one of the preceding claims, characterized in that the essentially ceramic base substances containing bushing ( 9 ) cooperates with the ceramic-coated bolt ( 2 ). 9. Slideway according to one of the preceding claims, characterized in that a Schaftab section ( 10 ) of the bolt ( 2 ) is partially coated with ceramic over a defined length. 10. Slideway according to one of the preceding claims, characterized in that the shaft portion ( 10 ) of the bolt ( 2 ) in the brake carrier ( 5 ) has the geometry of a hollow cylinder. 11. Method for coating sliding guides, in particular for hydraulic partial-pad disc brakes with a brake caliper ( 6 ) arranged on a brake carrier ( 5 ) and encompassing a brake disc and brake shoes, the brake caliper ( 6 ) having at least one piston ( 1 ) and / or has a bolt ( 2 ) which are guided in assigned holes ( 4 ) of the brake caliper ( 6 ) and the brake carrier ( 5 ), in particular according to at least one of the preceding claims, characterized in that a ceramic substance in by plasma spraying defined layer thickness is applied to surfaces, in particular to slidingly moving surface parts.