DE4002955A1 - Car disc brake with straddling housing - Google Patents

Abstract

The vehicle disc brake consists of a movable housing (8) straddling the brake disc, with a hydraulic actuator for the brake linings. The housing has a holder (6) joined to a part of the wheel suspension. Supports and guides link the housing to holder (6) and a part (3, 4) of the wheel suspension, such as axle journals, pivot bearings etc. The wheel suspension may have a guide, such as a bolt (3), or a sleeve (4), on which the housing rests.

Description

The invention relates to a partial lining disc brake with a brake disc, a housing and a brake lay parallel to the brake disc in the housing leads, is displaceable perpendicular to the brake disc and in the housing with at least one spring clip two end sections is held.

The housing includes, among other things, a brake carrier and a brake housing. With a known partial covering Disc brake (DE 38 08 139 A1) is the spring clip with one end section mounted in the brake carrier, which has two brake carrier arms which are connected by a connector are connected to each other. After shooting The spring clip is folded down beneath the brake pad, so that it has a section on the brake pad comes to rest. The other end section of the spring clip is then inserted under the connecting bridge. Mon days must therefore at least so far in Rich be pressed down on the brake pad that the other free end stuck under the connecting bridge can be. In some cases, considerable assembly forces are involved to apply.

It is the object of the present invention, a Specify partial brake disc brake at which the brake covering can be mounted and sprung more easily.

This task is done with a partial-pad disc brake the type mentioned solved in that the at the end sections in the housing at two adjacent Be attachment points in a common dead center plane that is essentially perpendicular to the brake disc be, lie, are each rotatably mounted that the spring clip essentially parallel to the brake disc is arranged pivotably and that the touch between spring clip and brake pad outside the dead at the point level.

The spring clip is mounted in the housing at two points, which are adjacent, but a predetermined one Have a distance from each other. When swiveling the Spring clip move the end portions of this spring bracket around different pivot points and are against each other other tense. The spring is now trying this verspan balance by being in a calm state location moved. There are two stable resting positions the one, namely one above the dead center level and one others below the dead center level. Will the spring clip pivoted away from the brake pad, it takes a stable Mounting position when it is over the dead center level is pivoted out. In this position the Brake pad installed and removed freely from the spring clip will. After installing or reinstalling the brake pad the spring clip only has to shortly past the dead center be pivoted in the direction of the brake pad. As soon as the dead center is exceeded, i. H. once the Spring bracket pivoted through the dead center plane he tries to balance the tension again and take a stable position again. Here  it comes with a predetermined area on the brake pad to the system and secures it against falling out and keeps it rattle-free. Because the contact between the spring clip and the brake pad outside the dead center level, it is ensured that not by a unintentional small movement of the brake pad that for example caused by vibrations can, a pivoting of the spring clip over the dead center level out into the assembly position. The Assembly of the brake pad is carried out by the invention Springing considerably simplified. The spring clip must not disassembled when changing brake pads, but just be folded down. To do this is a relatively small one Force required. The spring clip must be with one Pad changes cannot be renewed either. The spring clip positions itself in the holding position when swiveling, d. H. when folding down, so that no incorrect assembly after a brake pad change is possible. In the end requires the process of releasing the spring clip from the Brake pad only a short time, which makes assembly is also accelerated.

The dead center plane advantageously closes with the middle axis of the brake pad a predetermined angle. In other words, the two attachment points horizontally and vertically staggered, if you assume that the central axis of the brake covering is horizontal or vertical. In order to can be easily ensured that there is always sufficient spring force on the brake pad works.

In a preferred embodiment, the ends run the end sections substantially perpendicular to the longitudinal Extension of the spring clip and are in the housing bores introduced. There are no additional brackets  required because the spring clip is pretensioned is adequately fastened in the housing bores. To Assembly of the spring clip allows the end sections to be simple be inserted into the housing bores.

It is preferred that the housing bores are vertical to the brake disc, d. H. parallel to the axial direction of the Brake disc, run. The housing bores have no special processing requirements tion or tolerance. They are in the main processing direction, which makes the manufacture of the disc brake strong is simplified.

The ends of the end sections are advantageously of ent opposite sides inserted into the housing, whereby part of one end engages over the housing. The housing may of course have a certain thickness at this point not exceed so the spring does not get too big allow. For example, the spring can Crosspiece arranged between the brake carrier arms be. This special arrangement increases security against accidental loss of the spring clip further increased. The axial movement, i.e. H. the movement of the spring clip in the direction of the brake disc or away from this, because of this arrangement widely limited that the two ends reliably in the Housing bores are held.

The part spanning the housing advantageously forms the end of a stop for the lifted off the brake pad spring clip and limits the swiveling movement a predetermined angle. This is achieved that the end section is not only bent two-dimensionally is, d. H. the end section of the spring clip in one Level can be displayed. Rather, the pen bracket in the area of the end of the end section bent into the third dimension. This creates a  Strap that extends over the housing. When folding up the spring clip away from the brake pad comes the housing overlapping part of the end to rest on the housing and prevents further pivoting of the spring bracket.

The sum of the lengths of the ends in the casing are inserted more than 80% of the thickness of the housing at this point. The spring clip must then be deformed relatively strongly to the Remove ends from the housing. Here it can End of the end section spanning the housing is shorter be executed as the other end because the other End has no direct backup and therefore easier can be dismantled.

The end sections are advantageously perpendicular to the brake disc offset against each other. This prevents that the end portions when pivoting the Block the spring clip against each other and thereby one Difficulty moving the spring clip.

It is further preferred that the end portions in the loading rich the spring clip tip at which they join together are connected in a substantially perpendicular to the Brake disc extending direction are bent. Thereby it is ensured that the spring clip the brake pad holds securely even if the brake pad after one heavier wear permanently closer to the brake disc is positioned.

The fastening points are advantageously in one Housing sprue arranged. There is a little more space here available to mount the spring clip.

The invention is based on preferred in the following Embodiments in connection with the drawing described. In it show:

Fig. 1 shows a disc brake,

Fig. 2 shows a section II-II according to Fig. 1,

Fig. 3 shows another embodiment of a disc brake and

Fig. 4 shows a section IV-IV of FIG. 3.

A disc brake 1 has a housing, which includes a caliper housing 2 and a brake carrier 3 , among others. The disc brake 1 also has a brake disc 4 against which the brake pads 5 , 6 can be moved with the aid of an actuating device 7 . The direction of movement of the brake pads 5 , 6 in the direction of the brake disc 4 is referred to below as the axial direction. The brake carrier 3 has two brake carrier arms 8 , 9 , which are connected to one another via a connecting web 10 , so that the brake carrier 3 has an arcuate shape overall. About three holes 11 , 12 , 13 , the brake carrier 3 can be connected to a steering knuckle, not shown, of a vehicle.

The brake pad 5 is received in a shaft 14 which is bordered in the circumferential direction by support surfaces 15 , 16 be. To hold the brake pad 5 against displacement in a direction parallel to the brake disc, which is referred to below as the radial direction, the brake pad 5 shoulders or shoulders 29 , which rest on corresponding support surfaces 30 of the brake carrier.

The movement of the brake pad 5 in the radial direction away from the support surface 30 is limited by a spring clip 17 which has two end sections 18 , 19 which are connected to one another at a tip 20 . While the end sections 18 , 19 of the spring clip run parallel to the brake disc 4 in wesent union, the tip 20 of the spring clip 17 , on which the end sections 18 , 19 are connected, is bent in the axial direction. The tip lies on a projection 31 of the brake pad 5 . The tip 20 of the spring clip 17 extends over a predetermined length, so that an overlap of the brake pad 5 by the spring clip 17 is always ensured even when the brake pad 5 moves in the axial direction as a result of pad wear.

The end sections 18 , 19 each have temple ends 21 , 22 . The bracket end 21 of the end section 18 is simply bent over in the axial direction. The bracket end 22 of the end portion 19 of the spring clip 17 is first bent in a plane parallel to the brake disc 4 upward, then bent into a cross-section of the connecting web 10 section 23 in the axial direction and finally bent by 180 °, so that the end of the Temple end 22 is aligned in the axial direction. The two end faces of the spring clip are therefore practically opposite. To fasten the spring clip 17 , two holes 24 , 25 are provided in the connecting web, into which the two clip ends 21 , 22 are inserted from opposite sides. The bracket ends 21 , 22 are so long that the sum of their lengths, which are located within the bores 24 , 25 , is greater than 80% of the housing thickness, ie the thickness of the connecting web 10 at this point. This ensures that the spring clip 17 cannot be accidentally removed from the housing.

The temple end 22 is shorter than the temple end 21 . This is possible because the end portion 19 overlaps the connecting web 10 and is thus already secured.

The two holes 24 , 25 are arranged in the axial direction. They are offset in a horizontal and vertical direction with respect to a central axis 27 of the brake pad 5 . The two holes 24 , 25 lie in a dead center plane 26 which forms a win angle 28 with the central axis 27 . The dead center plane 26 thus extends parallel to a tangential plane on the brake disc. When the spring clip 17 is pivoted in the direction of arrow 32 , the two end sections 18 , 19 of the spring clip 17 move about different pivot points and are braced against one another. The tension reaches a maximum when the spring clip 17 is in the dead center plane 26 . There is an unstable equilibrium in this dead center plane 26 . With a slight movement in the direction of arrow 32 beyond the dead center plane 26 , the spring clip 17 tries to relax again. He moves under the influence of his own bias towards the brake pad 5 and finally comes to the projection 31 of the brake pad 5 to the system.

To dismantle the brake pad 5 , it is only necessary to pivot the spring clip 17 against the direction of the arrow 32 beyond the dead center plane 26 . As soon as the spring clip 17 is pivoted beyond the dead center plane 26 , it assumes a dash-dotted position 17 'due to its own voltage. A further movement of the spring clip 17 is prevented by the overlapping section 23 , which comes to rest in the position 17 'on the connecting web 10 . After replacing the brake pad 5 , the spring clip 17 must be pivoted ver in the direction of arrow 32 again. After passing through the dead center plane 26 , it automatically comes into contact with the brake lining 5 . The internal stress of the spring clip 17 then generates the required holding force for the brake pad 5 . The spring therefore no longer has to be dismantled when changing the brake pad 5 , but only has to be folded down.

The section 23 overlapping the connecting web 10 secures the spring clip 17 against folding too far. The spring clip 17 positions itself when closing, ie when pivoting in the direction of the brake pad, so that neither incorrect assembly after a pad change nor a loss of the spring clip 17 is possible. The prestressing of the spring clip 17 also causes the clip ends 21 , 22 to be braced in the bores 24 , 25 , so that the spring clip is reliably fastened in the bores 24 , 25 .

The end sections 18 , 19 of the spring clip 17 are offset from one another in the axial direction. This ensures that they do not interfere with each other when pivoting the spring clip 17 in the direction of arrow 32 . Rather, they can be led past each other.

FIGS. 3 and 4 show another embodiment of the disc brake, in which parts corresponding to those of Figs. 1 and 2, are provided with raised to 100 reference numerals. In contrast to the embodiment of FIG. 1, the spring clip 17 is no longer attached directly in the connecting web 10 , but in a sprue 34 , which is arranged in the radial direction on the outside of the connecting web 110 . This results in greater freedom in the design of the attachment of the spring clip.

Claims (10)

1. Part-pad disc brake with a brake disc, a housing and a brake pad, which is inserted parallel to the brake disc in the housing, perpendicular to the brake disc is displaceable and in the hous se is held by at least one spring clip with two Endab sections, characterized in that the two end sections ( 18 , 19 ; 118 , 119 ) in the housing ( 10 , 110 ) at two adjacent fastening points ( 24 , 25 ; 124 , 125 ), which are in a common dead center plane ( 26 , 126 ), which is essentially vertical on the brake disc ( 4 , 104 ), lie, are each rotatably mounted, that the spring clip ( 17 , 117 ) is pivotable substantially parallel to the brake disc ( 4 , 104 ) and that the contact between the spring clip ( 17 , 117 ) and Brake pad ( 5 , 105 ) outside the dead center plane ( 26 , 126 ). 2. Disc brake according to claim 1, characterized in that the dead center plane ( 26 , 126 ) with the central axis ( 27 , 127 ) of the brake pad ( 5 , 105 ) includes a predetermined angle ( 28 , 128 ). 3. Disc brake according to claim 1 or 2, characterized in that the ends ( 21 , 22 ; 121 , 122 ) of the end portions ( 18 , 19 ; 118 , 119 ) substantially perpendicular to the longitudinal extension of the spring clip ( 17 , 117 ) run and are inserted into housing bores ( 24 , 25 ; 124 , 125 ). 4. Disc brake according to claim 3, characterized in that the housing bores ( 24 , 25 ; 124 , 125 ) are perpendicular to the brake disc ( 4 , 104 ). 5. Disc brake according to claim 3 or 4, characterized in that the ends ( 21 , 22 ; 121 , 122 ) of the end portions ( 18 , 19 ; 118 , 119 ) are inserted from opposite sides into the housing ( 10 , 110 ) , wherein a part ( 23 , 123 ) of one end ( 22 , 122 ) overlaps the housing ( 10 , 110 ). 6. Disc brake according to claim 5, characterized net gekennzeich that the housing (10, 110) cross section (23, 123) of the end (22, 122) forms a stop for the brake pad (5, 105) lifted off spring clip (17 ' , 117 ') forms and limits the pivoting movement to a predetermined angle. 7. Disc brake according to one of claims 3 to 6, characterized in that the sum of the lengths of the ends ( 21 , 22 ; 121 , 122 ) which are inserted into the housing ( 10 , 110 ), more than 80% of the thickness of the Housing at this point. 8. Disc brake according to one of claims 1 to 7, characterized in that the end sections ( 18 , 19 ; 118 , 119 ) perpendicular to the brake disc ( 4 , 104 ) are offset from one another. 9. Disc brake according to one of claims 1 to 8, characterized in that the end portions ( 18 , 19 ; 118 , 119 ) in the region of the spring clip tip ( 20 , 120 ), on which they are connected to one another, in a substantially perpendicular to the brake disc ( 4 , 104 ) extending direction are bent. 10. Disc brake according to one of claims 1 to 9, characterized in that the fastening points ( 124 , 145 ) are arranged in a housing sprue ( 34 ).