Slack adjuster for a drum brake of a vehicle air braking system

Abstract

A slack adjuster is provided for a drum brake of a vehicle air braking system. The slack adjuster comprises a gear set including (i) a worm wheel having an outer circumferential surface, and (ii) a worm shaft having a longitudinal central axis and meshed with the worm wheel. The worm shaft is rotated in one direction about its longitudinal central axis when the drum brake is applied and adjustment is required and in an opposite direction about its longitudinal central axis when the drum brake is released. The slack adjuster further comprises an anti-reversing member having an inner circumferential surface facing the outer circumferential surface of the worm wheel. The anti-reversing member allows rotation of the worm wheel when the drum brake is applied and prevents rotation of the worm wheel when the drum brake is released.

Claims

1. A slack adjuster for a drum brake of a vehicle air braking system, the slack adjuster comprising: a gear set including (i) a worm wheel having an outer circumferential surface, and (ii) a worm shaft having a longitudinal central axis and meshed with the worm wheel, wherein the worm shaft is rotated in one direction about its longitudinal central axis when the drum brake is applied and adjustment is required and in an opposite direction about its longitudinal central axis when the drum brake is released; and an anti-reversing member having an inner circumferential surface facing the outer circumferential surface of the worm wheel, wherein the anti-reversing member allows rotation of the worm wheel when the drum brake is applied and prevents rotation of the worm wheel when the drum brake is released, wherein curvature of the inner circumferential surface of the anti-reversing member substantially conforms to curvature of the outer circumferential surface of the worm wheel.

2. The slack adjuster according to claim 1, further comprising: a first wear ring disposed on one side of the worm wheel and having a longitudinal central axis that is concentric with a longitudinal central axis of the worm wheel; and a second wear ring disposed on an opposite side of the worm wheel and having a longitudinal central axis that is concentric with the longitudinal central axis of the worm wheel.

3. The slack adjuster according to claim 1, wherein the anti-reversing member comprises a metallic type of material.

4. The slack adjuster according to claim 1, wherein the inner circumferential surface of the anti-reversing member extends between about five degrees and 180 degrees over the outer circumferential surface of the worm wheel.

5. The slack adjuster according to claim 1, further comprising: a release spring that biases the anti-reversing member toward the worm wheel and for, when removed, allows the drum brake to be reset.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of a drum brake apparatus embodying a slack adjuster constructed in accordance with an example embodiment.

(2) FIG. 2 is an enlarged perspective view of the slack adjuster shown in FIG. 1.

(3) FIG. 3 is an elevational view looking approximately in the direction of arrow 3 shown in FIG. 2.

(4) FIG. 4 is an exploded view of the slack adjuster shown in FIG. 2.

(5) FIG. 5 is an elevational view taken approximately along line 5-5 shown in FIG. 4.

DETAILED DESCRIPTION

(6) Referring to FIG. 1, a perspective view of a drum brake apparatus 100 embodying a slack adjuster 200 constructed in accordance with an example embodiment is illustrated. The slack adjuster 200 is for a drum brake of a vehicle air braking system. FIG. 2 is an enlarged perspective view of the slack adjuster 200 shown in FIG. 1. The drum brake apparatus 100 is located at an end of a wheel axle 102, and generally includes a spring brake chamber 104 that is connected via a pushrod 106 and clevis 108 to the slack adjuster 200.

(7) The slack adjuster 200 has a spline 202 (FIG. 2) that is installed on a spline (not shown) of a camshaft 110 (FIG. 1). The camshaft 110 is located on one side of a brake spider 112. An S-cam 114 is mounted on the camshaft 110 and acts against a cam follower roller 116 to pivot a brake shoe 118 about an anchor pin (not shown) that is attached to an opposite side of the brake spider 112.

(8) When the brake is applied, the linear force on the pushrod 106 from the spring chamber 104 is converted by the slack adjuster 200 to a torsional force on the camshaft 110 which, in turn, rotates the S-cam 114 against the cam follower roller 116 to pivot the brake shoe 118 about the anchor pin. As the brake shoe 118 pivots about the anchor pin, friction material 120 of the brake shoe 118 engages a wheel drum 122 to transmit braking torque through the brake spider 112 to the wheel axle 102 to decelerate and brake the vehicle.

(9) Referring to FIG. 3, an elevational view looking approximately in the direction of arrow 3 shown in FIG. 2 is illustrated. FIG. 4 is an exploded view of the slack adjuster 200 shown in FIG. 2. FIG. 5 is an elevational view taken approximately along line 5-5 shown in FIG. 4. The slack adjuster 200 includes a housing 203 in which a gear set 204 is disposed. The gear set 204 includes a worm wheel 206 that has an outer circumferential surface 208 (FIG. 4) and gear teeth 210 disposed on the outer circumferential surface 208. The gear set 204 further includes a worm shaft 212 that has a longitudinal central axis 214 and gear teeth 215 (FIG. 3) that is meshed with the gear teeth 210 on the worm wheel 206. The worm shaft 212 is rotated in one direction about its longitudinal central axis 214 when the drum brake is applied and adjustment is required and in an opposite direction about its longitudinal central axis 214 when the drum brake is released.

(10) A clutch spring 242 is disposed on a portion of the worm shaft 212. The clutch spring 242 is a wrap spring style clutch. A clutch pinion 244 is adjacent to the clutch spring 242 and is disposed on another portion of the worm shaft 212. The clutch spring 242 and the clutch pinion 244 comprise a clutch assembly. Structure and operation of clutch assemblies are known and, therefore, will not be described. As best shown in FIG. 3, a thrust washer 240 is disposed between the a mating face of the housing 203 and the worm shaft 212, and supports the worm shaft 212 and the clutch assembly for rotation about the longitudinal central axis 214.

(11) The slack apparatus 200 further includes an anti-reversing member 216 that has an inner circumferential surface 219 (FIG. 5) and gear teeth 220 disposed on the inner circumferential surface 219. The inner circumferential surface 219 of the anti-reversing member 216 faces the outer circumferential surface 208 of the worm wheel 206. The gear teeth 220 on the inner circumferential surface 219 of the anti-reversing member 216 is configured to mesh with the gear teeth 210 on the outer circumferential surface 208 of the worm wheel 206 to prevent rotation of the worm wheel 206 only when the drum brake is released.

(12) More specifically, the gear teeth 220 of the anti-reversing member 216 and the gear teeth 210 of the worm wheel 206 comprise a matching one-way tooth pattern. The gear teeth 220 and the gear teeth 210 are aligned with each other before the anti-reversing member 216 and the worm wheel 206 are inserted as a unit into the housing 203 during assembly of the slack adjuster 200. As best shown in FIG. 3, one end portion 217 of the anti-reversing member 216 is thicker than an opposite end portion 218 of the anti-reversing member 216 such that the cross-sectional profile of the anti-reversing member 216 has a curved teardrop shape. The anti-reversing member 216 comprises a solid metallic type of material selected for its rigidity and lubricity. These are only example materials, and other types of materials are possible.

(13) The thicker end portion 217 of the anti-reversing member 216 includes one or more protruding pins or dowels 250. Each of the protruding pins 250 fits into a hole/slot (not shown) in the housing 203 to support the anti-reversing member 216 for pivoting movement about the protruding pins 250. Thus, the housing 203 supports the anti-reversing member 216 at the protruding pins 250 for pivoting movement about the protruding pins 250.

(14) The slack adjuster 200 further comprises a first wear ring 230 (FIGS. 4 and 5) disposed on one side of the worm wheel 206. The first wear ring 230 has a longitudinal central axis 231 (FIG. 5) that is concentric with a longitudinal central axis 207 of the worm wheel 206. A second wear ring 232 is disposed on an opposite side of the worm wheel 206. The second wear ring 232 has a longitudinal central axis 233 that is concentric with the longitudinal central axis 207 of the worm wheel 206. The first and second wear rings 230, 232 provide a low-friction interface with the housing 203.

(15) The inner circumferential surface 219 of the anti-reversing member 216 has a curvature that substantially conforms to curvature of the outer circumferential surface 208 of the worm wheel 206. The inner circumferential surface 219 of the anti-reversing member 216 extends between about five degrees and 180 degrees over the outer circumferential surface 208 of the worm wheel 206. In some embodiments, the inner circumferential surface 219 of the anti-reversing member 216 extends about sixty degrees over the outer circumferential surface 208 of the worm wheel 206, as illustrated as angle in FIG. 4.

(16) As best shown in FIG. 3, a release spring 252 is disposed between the anti-reversing member 216 and the housing 203. More specifically, the release spring 252 fits into a hole in the housing 203 so that the release spring 252 can be maintained in its position. During assembly, the release spring 252 can be inserted from one side of the hole, for example. As another example, the release spring 252 can be inserted into a hole that extends completely through the wall of the housing 203. After the release spring 252 is inserted into position, the hole is then capped off.

(17) The release spring 252 biases the anti-reversing member 216 toward the worm wheel 206. The release spring 252, when removed from its hole, releases the gear teeth 220 of the anti-reversing member 216 from the gear teeth 210 of the worm wheel 206 to allow the drum brake to be reset (e.g., when new brake shoes are being installed). A small gap 254 (FIG. 3) is formed in the wall of the housing 203 in the vicinity of the anti-reversing member 216 to allow the anti-reversing member 216 to be pivoted about its protruding pins 250 away from the worm wheel 206. It is conceivable that a member or mechanism other than in the form of a release spring can be used. For example, a pawl can be used instead of a release spring. As another example, a release mechanism that extends to the outer part of the housing 203 can be provided to allow for manual release.

(18) During operation of the slack adjuster 200, the anti-reversing member 216 is positioned relative to the worm wheel 206 such that the anti-reversing member 216 allows the worm wheel 206 to rotate about the longitudinal central axis 214 when the worm shaft 212 and the clutch spring 242 of the clutch assembly cooperate together to adjust for excess stroke or clearance detected in response to the drum brake being applied. The gear teeth 220 of the anti-reversing member 216 skip over the gear teeth 210 of the worm wheel 206.

(19) The anti-reversing member is also positioned relative to the worm wheel such that the gear teeth 220 of the anti-reversing member 216 engages the gear teeth 210 on the worm wheel 206 to resist rotation of the worm wheel 206 about the longitudinal central axis 214 when the clutch pinion 244 of the clutch assembly returns to home position in response to the drum brake being released. In some embodiments, the gear teeth 220 of the anti-reversing member 216 engages the gear teeth 210 on the worm wheel 206 to provide between about five foot-pounds of torque and about twenty foot-pounds of torque to resist rotation of the worm wheel 206 about the longitudinal central axis 214.

(20) It should be apparent that the anti-reversing member 216 provides a means for enabling the worm wheel 206 to rotate when the drum brake is applied and for acting directly on the worm wheel 206 to prevent rotation of the worm wheel 206 when the drum brake is released. Since the gear teeth 220 of the anti-reversing member 216 mesh the gear teeth 210 of the worm wheel 206, the worm wheel 206 is held in position and is unable to de-adjust when the drum brake is released. The anti-reversing member 216 of the slack adjuster 200 provides a more robust and higher amount of force to resist de-adjustment as compared to known slack adjusters in which a spring element is used to resist de-adjustment.

(21) It should also be apparent that the anti-reversing member 216 has a construction that is not damaged or worn when the drum brake is backed off, such as during maintenance and/or repair of the drum brake.

(22) It should further be apparent that the slack adjuster 200 constructed in accordance with the above-described example embodiment is relatively easy to fabricate and assemble. The slack adjuster 200 is also relatively easy to install in retrofit applications as well as new production applications.

(23) Although the above description describes the slack adjuster 200 being used in a heavy vehicle such as a truck, it is conceivable that the slack adjuster 200 may be used in other types of commercial vehicles, such as busses for example.

(24) While the present disclosure has been illustrated by the description of example processes and system components, and while the various processes and components have been described in detail, applicant does not intend to restrict or in any way limit the scope of the appended claims to such detail. Additional modifications will also readily appear to those skilled in the art. The disclosure in its broadest aspects is therefore not limited to the specific details, implementations, or illustrative examples shown and described. Accordingly, departures may be made from such details without departing from the spirit or scope of applicant's general concept.