AUTOMATIC SLACK ADJUSTER FOR VEHICLE, BRAKING SYSTEM AND WHEELSET HAVING AN AUTOMATIC SLACK ADJUSTER

Abstract

An automatic slack adjuster includes a lever configured to be coupled to a push rod of a brake actuator, and to pivot about a rotational axis when actuated by the push rod, the rotational axis having a predetermined fixed location relative to the vehicle. A stroke indicator label is arranged on the lever and configured to designate, for the automatic slack adjuster, a predetermined zero stroke position, a working stroke range, and an overstroke range. A stroke indicator element is configured to visualize the current stroke level of the automatic slack adjuster on the indicator label by way of relative movement between the stroke indicator element and the stroke indicator label in response to pivotal movement of the lever. A mounting bracket of a mounting interface can be adjusted relative to the rotational axis for correctly installing the stroke indicator element.

Claims

1. An automatic slack adjuster (1) for braking systems (100) of automotive vehicles, in particular for drum brakes of commercial vehicles, the slack adjuster (1) comprising: a lever (3) configured to be operatively coupled to a push rod (103) of a brake actuator (101), and further configured to pivot about a rotational axis (R) when actuated by the push rod (103), the rotational axis (R) having a predetermined fixed location relative to the vehicle, a stroke indicator label (7) arranged on the lever and configured to designate, for the automatic slack adjuster (1), a predetermined zero stroke position, a working stroke range, and an overstroke range, and a stroke indicator element (9) that is configured to visually indicate the current stroke level of the automatic slack adjuster (1) between the predetermined zero stroke position (7a), the working stroke range (7b), and the overstroke range (7c) on the indicator label (7) via relative movement between the stroke indicator element (9) and the stroke indicator label (7), wherein the stroke indicator element (9) is positioned on the automatic slack adjuster (1) such that the lever (3) pivots relative to the stroke indicator element (9) about the rotational axis (R), and wherein the stroke indicator element (9) includes a mounting interface (18) configured to attach the stroke indicator element (9) to a fixed location relative to the vehicle.

2. The automatic slack adjuster (1) of claim 1, wherein the stroke indicator label (7) includes a label plate that is non-releasably fixed to the lever (3).

3. The automatic slack adjuster (1) of claim 1, wherein the stroke indicator element (9) includes a pointer needle (11) extending in a radial direction towards the stroke indicator label (7).

4. The automatic slack adjuster (1) of claim 1 wherein the stroke indicator element (9) includes a control arm (13) extending in a radial direction towards the mounting interface (18).

5. The automatic slack adjuster (1) of claim 1 wherein the stroke indicator element (9) includes a positioning collar (10) that extends in an axial direction corresponding to the rotational axis (R) and is arranged concentrically around the rotational axis (R).

6. The automatic slack adjuster of claim 5, wherein the positioning collar (10) engages a correspondingly shaped recess (8) of the lever (3).

7. The automatic slack adjuster of claim 1, wherein the rotational axis (R) is coaxial to a brake shaft of a braking system.

8. The automatic slack adjuster of any one of claim 5, wherein the positioning collar (10) includes a plurality of positioning teeth (12) that are distributed circumferentially around the collar (10).

9. The automatic slack adjuster of claim 1, wherein the mounting interface (18) includes a mounting bracket (19) configured to fasten the stroke indicator element (9) to an axle or swingarm of the vehicle.

10. The automatic slack adjuster of claim 9, wherein one of the mounting bracket (19) or the stroke indicator element (9) includes a first elongate hole (17) extending in a radial direction relative to the rotational axis (R) for adjusting the radial position of the mounting bracket (19) relative to the rotational axis (R), and the other of the mounting bracket (19) or the stroke indicator element (9) includes a protruding feature (21) that is dimensioned correspondingly to the elongate hole (17) and extends into the first elongate hole (17).

11. The automatic slack adjuster of claim 10, wherein the stroke indicator element (9) includes the first elongate hole (17) and the mounting bracket (19) includes a second elongate hole (23) extending orthogonally or tangential to the first elongate hole (17) for adjusting the rotational position of the stroke indicator element (9).

12. The automatic slack adjuster of claim 3, wherein the pointer needle (11) includes a tip portion (15) that is offset relative to a base portion of the pointer needle (11), wherein the tip portion (15) is offset in a direction toward the indicator label (7).

13. The automatic slack adjuster of claim 1, wherein the stroke indicator element (9) and the pointer needle (11) are mechanically isolated from the lever (3) to prevent moving of the pointer needle (11) together with pivoting movement of the lever (3).

14. The automatic slack adjuster of claim 1, wherein the lever (3) defines a housing for a slack adjuster mechanism (4) disposed therein.

15. The automatic slack adjuster of claim 10, wherein the protruding feature (21) is circumferentially adjustable and releasably fixable relative to the mounting bracket (19).

16. The automatic slack adjuster of claim 10, wherein the protruding feature (21) is radially shiftable within the first elongate hole (17).

17. The automatic slack adjuster of claim 1, wherein pivoting movement of the lever (3) relative to the stroke indicator element (9) alters a visible indication of the stroke indicator element (9) at the stroke indicator label (7).

18. A braking system (100) for an automotive vehicle, in particular for a commercial vehicle, the braking system comprising: a brake actuator (101) having a push rod (103) and configured to actuate the push rod (103), a brake mechanism (107) configured to apply a braking force to a wheel (201) of the vehicle, and an automatic slack adjuster (1) according to claim 1 operatively coupled between the brake actuator (101) and the brake mechanism (207).

19. The braking system (100) of claim 18, wherein the push rod (103) is coupled to an end of the brake lever (3) and a cam shaft (105) of the brake mechanism (107) is coaxial with rotational axis (R) and coupled to automatic slack adjuster (1).

20. A wheelset (200) of an automotive vehicle, in particular of a commercial vehicle, the wheelset comprising: an axle or swingarm (203), a wheel (201) rotatably mounted to the axle or swingarm, a brake actuator (101) fixedly mounted to the axle or swingarm, a brake mechanism (207) fixedly mounted to the axle or swingarm and operatively coupled to the brake actuator (101) in order to apply a braking force to the wheel, and an automatic slack adjuster (1) according to claim 1 operatively coupled between the brake actuator (101) and the brake mechanism (207).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] The present disclosure will now be described with reference to the accompanying drawings which illustrate one of several possible embodiments or aspects of the automatic slack adjuster provided herein by way of example and not by way of limitation, and wherein:

[0027] FIG. 1 illustrates a three-dimensional perspective representation of an automatic slack adjuster according to an aspect of the present disclosure, and

[0028] FIG. 2 illustrates the automatic slack adjuster of FIG. 1 installed on the wheelset of a vehicle according to an aspect of the present disclosure.

DETAILED DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1 depicts one aspect of an automatic slack adjuster 1. The automatic slack adjuster 1 includes a lever 3, which also functions as a housing for the slack adjuster mechanism 4. On its periphery at one end, the automatic slack adjuster 1 includes a mounting interface 5 for operatively coupling the lever 3 to a push rod of a brake actuator 101 (FIG. 2).

[0030] On the lever 3, the automatic slack adjuster 1 includes a stroke indicator label 7. The stroke indicator label 7 may be riveted or otherwise fastened permanently to the lever 3 to provide tamper-resistance. The stroke indicator label 7 is shown partitioned into three sectors: a first sector 7a is representative of a zero stroke position of the automatic slack adjuster 1. A second sector 7b is representative of a working stroke range of the automatic slack adjuster 1, and a third sector 7c is representative of an overstroke region of the automatic slack adjuster. The automatic slack adjuster 1 further includes a stroke indicator element 9 that is configured to indicate and visualize which state according to sector 7a, b, c the automatic slack adjuster 1 is currently in. To facilitate a read-out, the stroke indicator element 9 includes a pointer needle 11 facing towards the stroke indicator label 7 and, according to an aspect, at least partially overlapping the stroke indicator label 7. Substantially opposite of the pointer needle 11, the stroke indicator element 9 includes a control arm 13 facing towards a mounting interface of the vehicle (not shown in FIG. 1).

[0031] The pointer needle 11 of the stroke indicator element 9 includes a tip portion 15 which, according to one aspect, is offset towards the stroke indicator label 7 relative to a base portion of the pointer needle 11, and preferably is oriented parallel to the stroke indicator label 7, to improve read-out precision further.

[0032] The lever 3 of the automatic slack adjuster 1 is configured to pivot rotationally about a rotational axis R. The stroke indicator element 9 is mounted coaxially to the rotational axis R. Preferably, the stroke indicator element 9 is radially positioned relative to the lever 3 by inserting a positioning collar 10 of the stroke indicator element 9 into a corresponding recess 8 of the lever 3. The recess 8 preferably is coaxial to a cam shaft (FIG. 2), the direction of which is indicated by “c” in FIG. 1. Preferably, the positioning collar 10 includes a plurality of protrusions 12 extending radially relative to the rotational axis R that engage correspondingly dimensioned and arranged protrusions 14 provided on the lever 3. However, it is also within the scope of the invention, and a preferred embodiment, to have the stroke indicator element 9 and the pointer needle 11 mechanically isolated from the lever 3 of the automatic slack adjuster 1 altogether to avoid a risk of inadvertently dragging the pointer needle 11 together with the pivoting movement of the lever.

[0033] Turning now to mounting interface 18 of the stroke indicator element 9, a peripheral portion of the control arm 13 includes a first elongate hole 17 that is oriented such that a mounting bracket 19 of the mounting interface 18 can be radially adjusted relative to the rotational axis R for correctly installing the stroke indicator element 9. A support rod 21, which is correspondingly dimensioned to the first elongate hole 17, engages the elongate hole 17 and at the same time is mounted to the mounting bracket 19 by fastening members 27, 29. In the present embodiment, the fastening members 27 and 29 are illustrated as a stop shoulder 27 and a fastening screw 29. Further fastening elements 25, preferably also screws, are used to releasably fix the mounting bracket 19 to the vehicle.

[0034] Further preferably, the mounting bracket 19 comprises a second elongate hole 23 that is preferably oriented substantially orthogonal or tangential to the first elongate hole 17 such as to allow for lateral or circumferential displacement of the mounting bracket 19 relative to the lever 3, again in order to improve flexibility for mounting the stroke indicator element 9 on the vehicle.

[0035] In operation, the automatic slack adjuster 1 is mounted to a wheelset 200 of a vehicle, which is illustrated in FIG. 2. The wheelset 200 includes a braking system 100 which has a brake actuator 101 that is configured to actuate a push rod 103 of the brake actuator 101. The push rod 103 is operatively coupled to the mounting interface 5 of the lever 3 of the automatic slack adjuster 1. The automatic slack adjuster 1 is mounted, preferably via the mounting bracket 19, to a support element 207, which in the present embodiment is connected to an axle 203 of the wheelset 200. Similarly, the brake actuator 101 is mounted to a corresponding support element 205 which in turn is connected to the axle 203.

[0036] The automatic slack adjuster 1 furthermore is coupled to a cam shaft 105 which transmits the pivoting movement of the slack adjuster 1 to a brake mechanism 107, for example a drum brake. The brake mechanism 107 is configured to brake a wheel 201 of the wheelset 200.

[0037] The wheelset 200 shown in FIG. 2 additionally comprises a second wheel 201′ which is braked by a second braking system 100′. The second braking system 100′ is identical in setup as compared to the first braking system 100, and identical elements are designated with identical reference signs plus an apostrophe.

[0038] Thus, the braking system 100′ comprises a brake actuator 101′ which is mounted to a support element 205′ of the wheelset 200. The brake actuator 101′ actuates and includes a push rod 103′ that is operatively coupled to a further automatic slack adjuster 1′ that is held, preferably by a mounting bracket, to a support element 207′ connected to the axle 203.

[0039] The automatic slack adjuster 1′ is operatively coupled to a further brake 107′, which may be a drum brake, by a cam shaft 105′.

[0040] The embodiments illustrated and described herein above exemplify that the design and installation routine for an automatic slack adjuster having an indicator function is greatly simplified without sacrificing in any way the functionality as regards the read-out of the indicated stroke level.

[0041] It should of course be understood that various modifications and changes in form or detail could readily be made without departing from the scope of the invention as set forth in the following claims.