Title of Invention	BRAKE AND AVTUATOR ASSEMBLY
Abstract	A brake and actuator assembly includes a brake (1) incorporating a shaft (13) operable. In use, to cause friction elements (6A. 6B) O£ the brake to be urged against a rotary braking member (7), and coupling means (17, 21) between the shaft and a power device (10) for operating the brake. The coupling means includes a aplined connection (21) between the shaft (13) and power device (10), enabling the position of force application from the power device to the shaft to vary so as to accommodate friction lining wear in the brake, in. use, PRICE: THIRTY RUPEES

Title of Invention

BRAKE AND AVTUATOR ASSEMBLY

Abstract

A brake and actuator assembly includes a brake (1) incorporating a shaft (13) operable. In use, to cause friction elements (6A. 6B) O£ the brake to be urged against a rotary braking member (7), and coupling means (17, 21) between the shaft and a power device (10) for operating the brake. The coupling means includes a aplined connection (21) between the shaft (13) and power device (10), enabling the position of force application from the power device to the shaft to vary so as to accommodate friction lining wear in the brake, in. use, PRICE: THIRTY RUPEES

Full Text	1 BRAKE AND ACTUATOR ASSEMBLY This invention relates to a brake and actuator assembly, primarily for a motor vehicle, of the general kind comprising a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, and coupling means between the shaft and a power device for operating the brake. In mechanically actuated reaction type disc brakes, which include a caliper member associated with a rotary shaft and movable relative to a fixed carrier, wear of the friction linings takes place in a direction which is generally longitudinally of the shaft. It is usual for the brake to include adjuster means which compensates for friction lining wear, thereby keeping the rotational operative movement of the shaft to a minimum. Furthermore, wear of the friction linings is accompanied by a displacement of the caliper member and shaft relative to the fixed carrier. This displacement may be typically 20mm from the new to the fully worn lining condition. Various proposals have been made to accommodate this displacement, such as incorporating a splined connection between components of the mechanism to provide for their relative movement in the shaft longitudinal direction. In some prior arrangements of this type incorporating additional components, further splined connections or other mechanisms are required, leading to complication and high manufacturing costs. An object of the invention is to provide an improved brake and actuator assembly which is simpler and more cost effective than the aforesaid prior art arrangements. 2 According to the invention, the coupling means includes a splined connection between the shaft and the power device, whereby the position of force application from the power device to the shaft may vary to accommodate friction lining wear in the brake, in use. Conveniently, the shaft is formed with splines, typically on one end portion thereof, forming part of the splined connection. Preferably, the coupling means includes a hollow circular rotatably mounted boss formed with internal splines complementary to and engaged with those on the shaft, the boss being conveniently rotatably mounted in a housing by way of bearing means and, typically, carrying an operating lever connectable to the power device. The invention will now be described, by way of example, with reference to the accompanying drawings, in which:- Figure 1 is a perspective view of one form of vehicle disc brake incorporating the actuator assembly of the invention, and Figure 2 is a view from above, partly in cross-section, of part of the brake actuator assembly shown in Figure 1. Figure 1 of the drawings illustrates one form of disc brake, illustrated generally at 1, of which a carrier 2 is secured by bolts 3 to an end flange 4 of a vehicle axle 5. The carrier 2 supports a pair of friction pad assemblies 6A, 6B in conventional manner at either side of a rotatable brake disc 7 associated in use with a wheel to be braked (not shown). The brake also includes a caliper 8 slidably mounted on pins 9 and 3 incorporating a brake-actuating mechanism of conventional type, such as a ball and ramp or helical ramp arrangement, of which an adjustable tappet cooperates, usually by way of a spreader plate, with the adjacent directly actuated pad assembly 6A, the other pad assembly being operated indirectly by sliding of the caliper along the pins 9, as will be understood by those skilled in the art. Motive power for brake actuation is provided by an air actuator 10 of conventional type, of which an output rod 11 is coupled, via an input lever 12, to a force input shaft 13, for which a bearing at the brake end thereof is provided within a housing 14 secured by bolts 15 to the caliper 8. The outer end of the shaft 13 is rotatably mounted in brackets 16A, 16B rigidly secured to the axle 5, as by illustrated bolts 16C. As can be seen more clearly from Figure 2, the lever 12 is integral with a circular boss 17 which is mounted by way of bearings, typically of plastics, brass or sintered material and illustrated as spherical radial bearings 18, within a housing formed by the brackets 16A, 16B. The bearings are housed within curved radially extreme portions 19 of the brackets and planar opposed respective surfaces 18A thereof are engaged against opposed axially facing sides of the boss 17, The aforesaid surfaces of the boss are formed with respective identical annular flanges 20, the radially outermost surfaces or shoulders of which bear against the adjacent internal surfaces 18B of the bearings 18. The lever is thereby constrained radially and axially whilst permitted rotational actuating movement under the action oi the power device 10. The adjacent end portion of the shaft 13 is provided with longitudinal splines 21 which engage corresponding splines within the boss 17 in 4 order to provide a rotary driving connection between the lever 12 and shaft whilst at the sanne time permitting axial movement of the shaft within the boss. The outermost end of the shaft is covered by a cap 22, conveniently of pressed metal, which is held in place on the boss 17 by a circlip 23 engaged in a groove in the adjacent annular flange 20 and trapping a radial flange of the cap against the boss. A similar circlip 24 at the opposite side of the boss 17 traps a flange of a tubular element 25, conveniently of pressed metal, which acts to support one end of a protective boot 26, the other end of which engages around the shaft 13. Both the boot 26 and cap 22 serve to minimise the ingress to the sensitive sliding spline connection of foreign material, such as dust and water. The boss 17 is provided, at a location radially remote from the lever 12, with a nipple 17 permitting lubricating grease to be introduced along a passage 28 of the boss into the splines 21. Rotation of the lever 12 by actuation of the power device 10 will in turn rotate the shaft 13 which operates the brake actuating mechanism within the brake in order to apply the friction pad assemblies 6A, 6B against the disc 7, in conventional manner. A certain amount of deflection may take place in the brake components during actuation, leading to an angular deflection of the shaft which is amplified at the splined end thereof. This deflection can either be accommodated in the splined connection with the lever or by the spherical bearings 18. As wear of the friction pad assemblies takes place, the shaft 13 moves axially together with the caliper 8 in the direction of arrow A in Figures 1 and 2. This movement is permitted by way of the splined connection between the shaft and the boss 17 of the actuating lever. The formation of the splined connection at this location leads to an advantageous 5 simplicity of construction, avoiding the use oi an additional coupling along the shaft or within the actuating mechanism of the brake. It is possible with the actuator assembly of the invention to provide for the interchangeability of cam-actuated drum brakes with the disc brake illustrated and described herein. The rotary actuator shaft mounted on such a drum brake enables the brake to be Installed in place of the disc brake with the actuator shaft connected to the lever 12 by complementary splines, even though substantial axial displacement of the shaft may not be required. This invention relates to a brake and actuator assembly, primarily for a motor vehicle, of the general kind comprising a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, and coupling means between the shaft and a power device for operating the brake. In mechanically actuated reaction type disc brakes, which include a caliper member associated with a rotary shaft and movable relative to a fixed carrier, wear of the friction linings takes place in a direction which is generally longi¬tudinally of the shaft. It is usual for the brake to include adjuster means which compensates for friction lining wear, thereby keeping the rotational operative movement of the shaft to a minimum. Furthermore, wear of the friction linings is accompanied by a displacement of the caliper member and shaft relative to the fixed carrier. This displacement may be typi¬cally 20mm from the new to the fully worn lining condition. Various proposals have been made to accommodate this dis¬placement, such as incorporating a splined connection between components of the mechanism to provide for their relative movement in the shaft longitudinal direction. In some prior arrangements of this type incorporating additional components, further splined connections or other mechanisms are required, leading to complication and high manufacturing costs. one such prior arrangement is illustrated in GB-A-1519980 and includes a brake-actuating shaft forming a splined connection with a further shaft extending into operative engagement with a slack adjuster interposed between this further shaft and an actuating rod of a power device. us No,4014411 illustrates a further arrangement in which a splined connection is provided between a brake actuating shaft and a lever connected to an actuator device. An object of the invention is to provide an improved brake and actuator assembly which is simpler and has improved operating characteristics as compared with the aforesaid prior art arrangements. According to the invention, a brake and actuator assembly comprises a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, the shaft being operably connected to a brake-actuating mechanism of the brake for brake actuation and, at a location spaced from said mechanism, forming a splined connection with a coupling device coupled to an output member of a power device, whereby the position of force application from the power device via the coupling device to the shaft may vary along the shaft to accommodate friction lining wear in the brake, in use, the coupling device including a hollow rotatably mounted boss formed with internal splines complementary to and engaged with splines on the shaft to form said splined connection, a circular part of the boss being rotatably mounted in a housing by way of bearing means. The invention will now be described, by way of example, with reference to the accompanying drawings, in which:- Figure 1 is a perspective view of one form of vehicle disc brake incorporating the actuator assembly of thei invention, and Figure 2 is a view from above, partly in Cross-section, of part of the brake actuator assembly shown in Figure 1. Figure 1 of the drawings illustrates one form of disc brake, illustrated generally at 1, of which a carrier 2 is secured by bolts 3 to an end flange 4 of a vehicle axle 5. The carrier 2 supports a pair of friction pad assemblies 6A, 6B in con¬ventional manner at either side of a rotatable brake disc 7 associated in use with a wheel to be braked (not shown) . The brake also includes a caliper 8 slidably mounted on pins 9 and incorporating a brake-actuating mechanism of conventional type,such as a ball and ramp or helical ramp arrangement, of which an adjusta¬ble tappet co-operates, usually by way of a spreader plate, with the adjacent directly actuated pad assembly 6A, the other pad assembly being operated indirectly by sliding of the caliper along the pins 9, as will be understood by those skilled in the art. Motive power for brake actuation is provided by an air actuator 10 of conventional type, of which an output rod 11 is coupled, via an input lever 12, to a force input shaft 13, for which a bearing at the brake end thereof is provided within a housing 14 secured by bolts 15 to the caliper 8. The outer end of the shaft 13 is rotatably mounted in brackets 16A, 16B rigidly secured to the axle 5, as by illustrated bolts 16C As can be seen more clearly from Figure 2, the lever 12 is integral with a circular boss 17 which is mounted by way of bearings, typically of plastics, brass or sintered material and Illustrated as spherical radial bearings 18, within a housing formed by the brackets 16A, 16B. The bearings are housed within curved radially extreme portions 19 of the brackets and planar opposed respective surfaces 18A thereof are engaged against opposed axially facing sides of the boss 17. The aforesaid surfaces of the boss are formed with respective identical annular flanges 20, the radially outer¬most surfaces or shoulders of which bear against the adjacent internal surfaces 18B of the bearings 18. The lever is thereby constrained radially and axially whilst permitted rotational actuating movement under the action of the power device 10. The adjacent end portion of the shaft 13 is provided with longitudine 21 which engage corresponding splines within the boss 17 in order to provide a rotary driving connection between the lever 12 and shaft whilst at the same time permitting axial movement of the shaft within the boss. The outermost end of the shaft is covered by a cap 22, conveniently of pressed metal, which is held in place on the boss 17 by a circlip 23 engaged in a groove in the adjacent annular flange 20 and trapping a radial flange of the cap against the boss. A similar circlip 24 at the opposite side of the boss 17 traps a flange of a tubular element 25, conveniently of pressed metal,which acts to support one end of a protective boot 26, the other end of which engages around the shaft 13. Both the boot 26 and cap 22 serve to minimise the ingress to the sensitive sliding spline conn¬ection of foreign material, such as dust and water. The boss 17 is provided, at a location radially remote from the lever 12, with a nipple 27 permitting lubricating grease to be introduced along a passage 28 of the boss into the splines 21. Rotation of the lever 12 by actuation of the power device 10 will in turn rotate the shaft 13 which operates the brake actuating mechanisi within the brake in order to apply the friction pad assemblies 6A, 6B against the disc 7, in conventional manner. A certain amount of deflection may take place in the brake components during actuation, leading to an angular deflection of the shaft which is amplified at the splined end thereof. This deflection can either be accommodated in the splined connection with the lever or by the spherical bearings IB, As wear of the friction pad assemblies takes place, the shaft 13 moves axially together with the caliper 8 in the direction of arrow A in Figures 1 and 2, This movement is permitted by way of the splined connection between the shaft and the boss 17 of the actuatin lever,The formation of the, splined connection at this location leads to an advantageous simplicity of construction, avoiding the use of an additional coupling along the shaft or within the actuating mechanism of the brake. It is possible with the actuator assembly of the invention to provide for the interchangeability of cam-actuated drum brakes with the disc brake illustrated and described herein. The rotary actuator shaft mounted on such a drum brake enables the brake to be installed in place of the disc brake with the actuator shaft connected to the lever 12 by complementary splines, even though substantial axial displacement of the shaft may not be required We CLAIM 1. A brake and actuator assembly comprising a brake (l) incorporating a shaft (13) operable, in use, to cause friction elements (6A, 6B) of the brake to be urged against a rotary- braking member (7) , the shaft being operably connected to a brake-actuating mechanism of the brake for brake actuation and, at a location spaced from said mechanism, forming a splined connection (21) with a coupling device (17) coupled to a power device (10), whereby the position of force application from the power device via the coupling device to the shaft may vary along the shaft to accommodate friction lining wear in the brake, in use, the coupling device including a hollow rotatably mounted boss (17) formed with internal splines complementary to and engaged with splines on the shaft (13) to form said splined connection, a circular part of the boss (17) being rotatably mounted in a housing (19) by way of bearing means (18). 2. An assembly according to Claim 1, wherein the shaft splines (21) are on an end portion of the shaft (13) remote from the brake (1) . 3. An assembly according to Claim 1 or Claim2, wherein the boss (17)carries an operating lever (12) connected to the power device (10) . 4. An assembly according to any one of Claims 1 to 3,wherein the bearing means (18) are spherical radial bearings. 5. An assembly according to Claim 4, wherein the bearing means (18) are such as to accommodate limited angular movement of the shaft (13). 6. An assembly according to any one of the preceding Claims, wherein the boss (17) is provided with a radially facing shoulder (20) at either side thereof which engages the bearing means (18) for radial retention of the shaft, the boss being retained axially by engagement with the bearing means of its opposed axially facing sides. 7. An assembly according to any one of the preceding Claims, wherein the line of force application between an output member (11) of the power device and the shaft lies generally in a radial plane extending through said member, coupling device and splined connection, 8. An assembly according to any one of the preceding Claims, wherein the housing (19) is fixed.

Full Text

1
BRAKE AND ACTUATOR ASSEMBLY
This invention relates to a brake and actuator assembly, primarily for a motor vehicle, of the general kind comprising a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, and coupling means between the shaft and a power device for operating the brake.
In mechanically actuated reaction type disc brakes, which include a caliper member associated with a rotary shaft and movable relative to a fixed carrier, wear of the friction linings takes place in a direction which is generally longitudinally of the shaft. It is usual for the brake to include adjuster means which compensates for friction lining wear, thereby keeping the rotational operative movement of the shaft to a minimum. Furthermore, wear of the friction linings is accompanied by a displacement of the caliper member and shaft relative to the fixed carrier. This displacement may be typically 20mm from the new to the fully worn lining condition. Various proposals have been made to accommodate this displacement, such as incorporating a splined connection between components of the mechanism to provide for their relative movement in the shaft longitudinal direction. In some prior arrangements of this type incorporating additional components, further splined connections or other mechanisms are required, leading to complication and high manufacturing costs.
An object of the invention is to provide an improved brake and actuator assembly which is simpler and more cost effective than the aforesaid prior art arrangements.

2
According to the invention, the coupling means includes a splined connection between the shaft and the power device, whereby the position of force application from the power device to the shaft may vary to accommodate friction lining wear in the brake, in use.
Conveniently, the shaft is formed with splines, typically on one end portion thereof, forming part of the splined connection.
Preferably, the coupling means includes a hollow circular rotatably mounted boss formed with internal splines complementary to and engaged with those on the shaft, the boss being conveniently rotatably mounted in a housing by way of bearing means and, typically, carrying an operating lever connectable to the power device.
The invention will now be described, by way of example, with reference to the accompanying drawings, in which:-
Figure 1 is a perspective view of one form of vehicle disc brake incorporating the actuator assembly of the invention, and
Figure 2 is a view from above, partly in cross-section, of part of the brake actuator assembly shown in Figure 1.
Figure 1 of the drawings illustrates one form of disc brake, illustrated generally at 1, of which a carrier 2 is secured by bolts 3 to an end flange 4 of a vehicle axle 5. The carrier 2 supports a pair of friction pad assemblies 6A, 6B in conventional manner at either side of a rotatable brake disc 7 associated in use with a wheel to be braked (not shown). The brake also includes a caliper 8 slidably mounted on pins 9 and

3
incorporating a brake-actuating mechanism of conventional type, such as a ball and ramp or helical ramp arrangement, of which an adjustable tappet cooperates, usually by way of a spreader plate, with the adjacent directly actuated pad assembly 6A, the other pad assembly being operated indirectly by sliding of the caliper along the pins 9, as will be understood by those skilled in the art.
Motive power for brake actuation is provided by an air actuator 10 of conventional type, of which an output rod 11 is coupled, via an input lever 12, to a force input shaft 13, for which a bearing at the brake end thereof is provided within a housing 14 secured by bolts 15 to the caliper 8. The outer end of the shaft 13 is rotatably mounted in brackets 16A, 16B rigidly secured to the axle 5, as by illustrated bolts 16C.
As can be seen more clearly from Figure 2, the lever 12 is integral with a circular boss 17 which is mounted by way of bearings, typically of plastics, brass or sintered material and illustrated as spherical radial bearings 18, within a housing formed by the brackets 16A, 16B. The bearings are housed within curved radially extreme portions 19 of the brackets and planar opposed respective surfaces 18A thereof are engaged against opposed axially facing sides of the boss 17, The aforesaid surfaces of the boss are formed with respective identical annular flanges 20, the radially outermost surfaces or shoulders of which bear against the adjacent internal surfaces 18B of the bearings 18. The lever is thereby constrained radially and axially whilst permitted rotational actuating movement under the action oi the power device 10.
The adjacent end portion of the shaft 13 is provided with longitudinal splines 21 which engage corresponding splines within the boss 17 in

4
order to provide a rotary driving connection between the lever 12 and shaft whilst at the sanne time permitting axial movement of the shaft within the boss. The outermost end of the shaft is covered by a cap 22, conveniently of pressed metal, which is held in place on the boss 17 by a circlip 23 engaged in a groove in the adjacent annular flange 20 and trapping a radial flange of the cap against the boss. A similar circlip 24 at the opposite side of the boss 17 traps a flange of a tubular element 25, conveniently of pressed metal, which acts to support one end of a protective boot 26, the other end of which engages around the shaft 13. Both the boot 26 and cap 22 serve to minimise the ingress to the sensitive sliding spline connection of foreign material, such as dust and water. The boss 17 is provided, at a location radially remote from the lever 12, with a nipple 17 permitting lubricating grease to be introduced along a passage 28 of the boss into the splines 21.
Rotation of the lever 12 by actuation of the power device 10 will in turn rotate the shaft 13 which operates the brake actuating mechanism within the brake in order to apply the friction pad assemblies 6A, 6B against the disc 7, in conventional manner. A certain amount of deflection may take place in the brake components during actuation, leading to an angular deflection of the shaft which is amplified at the splined end thereof. This deflection can either be accommodated in the splined connection with the lever or by the spherical bearings 18.
As wear of the friction pad assemblies takes place, the shaft 13 moves axially together with the caliper 8 in the direction of arrow A in Figures 1 and 2. This movement is permitted by way of the splined connection between the shaft and the boss 17 of the actuating lever. The formation of the splined connection at this location leads to an advantageous

5
simplicity of construction, avoiding the use oi an additional coupling along the shaft or within the actuating mechanism of the brake.
It is possible with the actuator assembly of the invention to provide for the interchangeability of cam-actuated drum brakes with the disc brake illustrated and described herein. The rotary actuator shaft mounted on such a drum brake enables the brake to be Installed in place of the disc brake with the actuator shaft connected to the lever 12 by complementary splines, even though substantial axial displacement of the shaft may not be required.

This invention relates to a brake and actuator assembly, primarily for a motor vehicle, of the general kind comprising a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, and coupling means between the shaft and a power device for operating the brake.
In mechanically actuated reaction type disc brakes, which include a caliper member associated with a rotary shaft and movable relative to a fixed carrier, wear of the friction linings takes place in a direction which is generally longi¬tudinally of the shaft. It is usual for the brake to include adjuster means which compensates for friction lining wear, thereby keeping the rotational operative movement of the shaft to a minimum. Furthermore, wear of the friction linings is accompanied by a displacement of the caliper member and shaft relative to the fixed carrier. This displacement may be typi¬cally 20mm from the new to the fully worn lining condition. Various proposals have been made to accommodate this dis¬placement, such as incorporating a splined connection between components of the mechanism to provide for their relative movement in the shaft longitudinal direction. In some prior arrangements of this type incorporating additional components, further splined connections or other mechanisms are required, leading to complication and high manufacturing costs.
one such prior arrangement is illustrated in GB-A-1519980 and includes a brake-actuating shaft forming a splined connection
with a further shaft extending into operative engagement with a slack adjuster interposed between this further shaft and an actuating rod of a power device.

us No,4014411 illustrates a further arrangement in which a splined connection is provided between a brake actuating shaft and a lever connected to an actuator device.
An object of the invention is to provide an improved brake and actuator assembly which is simpler and has improved operating characteristics as compared with the aforesaid prior art arrangements.
According to the invention, a brake and actuator assembly comprises a brake incorporating a shaft operable, in use, to cause friction elements of the brake to be urged against a rotary braking member, the shaft being operably connected to a brake-actuating mechanism of the brake for brake actuation and, at a location spaced from said mechanism, forming a splined connection with a coupling device coupled to an output member of a power device, whereby the position of force application from the power device via the coupling device to the shaft may vary along the shaft to accommodate friction lining wear in the brake, in use, the coupling device including a hollow rotatably mounted boss formed with internal splines complementary to and engaged with splines on the shaft to form said splined connection, a circular part of the boss being rotatably mounted in a housing by way of bearing means.
The invention will now be described, by way of example, with reference to the accompanying drawings, in which:-

Figure 1 is a perspective view of one form of vehicle disc brake incorporating the actuator assembly of thei invention, and
Figure 2 is a view from above, partly in Cross-section, of part of the brake actuator assembly shown in Figure 1.
Figure 1 of the drawings illustrates one form of disc brake, illustrated generally at 1, of which a carrier 2 is secured by bolts 3 to an end flange 4 of a vehicle axle 5. The carrier 2 supports a pair of friction pad assemblies 6A, 6B in con¬ventional manner at either side of a rotatable brake disc 7 associated in use with a wheel to be braked (not shown) . The brake also includes a caliper 8 slidably mounted on pins 9 and

incorporating a brake-actuating mechanism of conventional type,such as a ball and ramp or helical ramp arrangement, of which an adjusta¬ble tappet co-operates, usually by way of a spreader plate, with the adjacent directly actuated pad assembly 6A, the other pad assembly being operated indirectly by sliding of the caliper along the pins 9, as will be understood by those skilled in the art.
Motive power for brake actuation is provided by an air actuator 10 of conventional type, of which an output rod 11 is coupled, via an input lever 12, to a force input shaft 13, for which a bearing at the brake end thereof is provided within a housing 14 secured by bolts 15 to the caliper 8. The outer end of the shaft 13 is rotatably mounted in brackets 16A, 16B rigidly secured to the axle 5, as by illustrated bolts 16C
As can be seen more clearly from Figure 2, the lever 12 is integral with a circular boss 17 which is mounted by way of bearings, typically of plastics, brass or sintered material and Illustrated as spherical radial bearings 18, within a housing formed by the brackets 16A, 16B. The bearings are housed within curved radially extreme portions 19 of the brackets and planar opposed respective surfaces 18A thereof are engaged against opposed axially facing sides of the boss 17. The aforesaid surfaces of the boss are formed with respective identical annular flanges 20, the radially outer¬most surfaces or shoulders of which bear against the adjacent internal surfaces 18B of the bearings 18. The lever is thereby constrained radially and axially whilst permitted rotational actuating movement under the action of the power device 10.
The adjacent end portion of the shaft 13 is provided with longitudine 21 which engage corresponding splines within the boss 17 in

order to provide a rotary driving connection between the lever 12 and shaft whilst at the same time permitting axial movement of the shaft within the boss. The outermost end of the shaft is covered by a cap 22, conveniently of pressed metal, which is held in place on the boss 17 by a circlip 23 engaged in a groove in the adjacent annular flange 20 and trapping a radial flange of the cap against the boss. A similar circlip 24 at the opposite side of the boss 17 traps a flange of a tubular element 25, conveniently of pressed metal,which acts to support one end of a protective boot 26, the other end of which engages around the shaft 13. Both the boot 26 and cap 22 serve to minimise the ingress to the sensitive sliding spline conn¬ection of foreign material, such as dust and water. The boss 17 is provided, at a location radially remote from the lever 12, with a nipple 27 permitting lubricating grease to be introduced along a passage 28 of the boss into the splines 21.
Rotation of the lever 12 by actuation of the power device 10 will in turn rotate the shaft 13 which operates the brake actuating mechanisi within the brake in order to apply the friction pad assemblies 6A, 6B against the disc 7, in conventional manner. A certain amount of deflection may take place in the brake components during actuation, leading to an angular deflection of the shaft which is amplified at the splined end thereof. This deflection can either be accommodated in the splined connection with the lever or by the spherical bearings IB,
As wear of the friction pad assemblies takes place, the shaft 13 moves axially together with the caliper 8 in the direction of arrow A in Figures 1 and 2, This movement is permitted by way of the splined connection between the shaft and the boss 17 of the actuatin lever,The formation of the, splined connection at this location

leads to an advantageous simplicity of construction, avoiding the use of an additional coupling along the shaft or within the actuating mechanism of the brake.
It is possible with the actuator assembly of the invention to provide for the interchangeability of cam-actuated drum brakes with the disc brake illustrated and described herein. The rotary actuator shaft mounted on such a drum brake enables the brake to be installed in place of the disc brake with the actuator shaft connected to the lever 12 by complementary splines, even though substantial axial displacement of the shaft may not be required

We CLAIM
1. A brake and actuator assembly comprising a brake (l)
incorporating a shaft (13) operable, in use, to cause friction
elements (6A, 6B) of the brake to be urged against a rotary-
braking member (7) , the shaft being operably connected to a
brake-actuating mechanism of the brake for brake actuation
and, at a location spaced from said mechanism, forming a
splined connection (21) with a coupling device (17) coupled to
a power device (10), whereby the position of force application
from the power device via the coupling device to the shaft may
vary along the shaft to accommodate friction lining wear in the
brake, in use, the coupling device including a hollow rotatably
mounted boss (17) formed with internal splines complementary to
and engaged with splines on the shaft (13) to form said splined
connection, a circular part of the boss (17) being rotatably
mounted in a housing (19) by way of bearing means (18).
2. An assembly according to Claim 1, wherein the shaft splines (21) are on an end portion of the shaft (13) remote from the brake (1) .
3. An assembly according to Claim 1 or Claim2, wherein the boss (17)carries an operating lever (12) connected to the power device (10) .
4. An assembly according to any one of Claims 1 to 3,wherein the bearing means (18) are spherical radial bearings.
5. An assembly according to Claim 4, wherein the bearing means (18) are such as to accommodate limited angular movement of the shaft (13).

6. An assembly according to any one of the preceding Claims,
wherein the boss (17) is provided with a radially facing shoulder
(20) at either side thereof which engages the bearing means (18) for radial retention of the shaft, the boss being retained axially by engagement with the bearing means of its opposed axially facing sides.
7. An assembly according to any one of the preceding Claims,
wherein the line of force application between an output member
(11) of the power device and the shaft lies generally in a radial
plane extending through said member, coupling device and splined connection,
8. An assembly according to any one of the preceding Claims,
wherein the housing (19) is fixed.

Documents:

105-mas-95 abstract.jpg

105-mas-95 abstract.pdf

105-mas-95 claims.pdf

105-mas-95 correspondences-others.pdf

105-mas-95 correspondences-po.pdf

105-mas-95 description (complete).pdf

105-mas-95 drawings.pdf

105-mas-95 form-2.pdf

105-mas-95 form-4.pdf

105-mas-95 form-6.pdf

105-mas-95 form-62.pdf

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Patent Number

187800

Indian Patent Application Number

105/MAS/1995

PG Journal Number

30/2009

Publication Date

24-Jul-2009

Grant Date

13-Mar-2003

Date of Filing

31-Jan-1995

Name of Patentee

M/S. MERITOR AUTOMOTIVE, INC.

Applicant Address

BURETON HOUSE, NEW ROAD, SOLPHULL, WEST MIDLANDS, B91 3TX

Inventors:

#	Inventor's Name	Inventor's Address
1	NE	NE

PCT International Classification Number

N/A

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	9401886.8	1994-04-01	U.K.