CA2277649A1 - A brake application mechanism for a disc brake caliper - Google Patents
A brake application mechanism for a disc brake caliper Download PDFInfo
- Publication number
- CA2277649A1 CA2277649A1 CA002277649A CA2277649A CA2277649A1 CA 2277649 A1 CA2277649 A1 CA 2277649A1 CA 002277649 A CA002277649 A CA 002277649A CA 2277649 A CA2277649 A CA 2277649A CA 2277649 A1 CA2277649 A1 CA 2277649A1
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- CA
- Canada
- Prior art keywords
- brake
- cross bar
- housing
- caliper
- cover
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Abstract
A disc brake caliper comprises a housing (1) to be arranged astraddle of a vehicle brake disc, a cover (2) attached to the housing, two thrust sleeves (8), which are connected to a brake pad (5) and which are axially movable in the housing, a cross bar (9) connecting the two thrust sleeves, and a lever (17) for transmitting a brake force from a brake cylinder (4), attached to the caliper, to the cross bar. The brake application mechanism for this caliper includes the thrust sleeves (8), the cross bar (9), and the lever (17) and is self-sustained and can be delivered and mounted as a unit in the housing (1).
Description
990324 I:\1635016.doC LW ' A BRAKE APPLICi~aTION MECHANISM FOR A DISC BRAKE CALIPER
Technica_L Field This invention relates to a brake application mecha-nism for a disc brake caliper, the caliper comprising a housing to be <~rranged astraddle of a vehicle brake disc, a cover attached to the housing, two thrust sleeves, which are connected t.o a brake pad holder provided with a brake pad for braking engagement with the brake disc and which are axially movable in the housing at a distance from each other, a cross bar connecting the two thrust sleeves, and a lever for tran;~mitting a brake force from a brake cylinder, attached to th<s caliper, to the cross bar.
A disc brake caliper as defined above is primarily intended for a road vehicle but may quite as well be used for a rail vehicle.
Background of the invention Prior de:~igns for disc brake calipers of this kind are known.
The mounting of the different parts of a brake appli-cation mechanism for such a disc brake caliper can be rather complic<~ted, also against the background that more parts than those mentioned above are involved in the design.
It is accordingly an object of the present invention to facilitate the mounting of a brake application mechanism as defined.
In view of its complexity and the tolerances invol-ved, a brake mechanism as defined has normally to be manu-factured by a :brake specialist, whereas the housing and certain other :parts of the disc brake caliper may well be manufactured for example by the vehicle manufacturer, such as a truck manufacturer. For different reasons this may provide an economic advantage for this manufacturer. Also, 990324 I:\1635016.doc LW
Technica_L Field This invention relates to a brake application mecha-nism for a disc brake caliper, the caliper comprising a housing to be <~rranged astraddle of a vehicle brake disc, a cover attached to the housing, two thrust sleeves, which are connected t.o a brake pad holder provided with a brake pad for braking engagement with the brake disc and which are axially movable in the housing at a distance from each other, a cross bar connecting the two thrust sleeves, and a lever for tran;~mitting a brake force from a brake cylinder, attached to th<s caliper, to the cross bar.
A disc brake caliper as defined above is primarily intended for a road vehicle but may quite as well be used for a rail vehicle.
Background of the invention Prior de:~igns for disc brake calipers of this kind are known.
The mounting of the different parts of a brake appli-cation mechanism for such a disc brake caliper can be rather complic<~ted, also against the background that more parts than those mentioned above are involved in the design.
It is accordingly an object of the present invention to facilitate the mounting of a brake application mechanism as defined.
In view of its complexity and the tolerances invol-ved, a brake mechanism as defined has normally to be manu-factured by a :brake specialist, whereas the housing and certain other :parts of the disc brake caliper may well be manufactured for example by the vehicle manufacturer, such as a truck manufacturer. For different reasons this may provide an economic advantage for this manufacturer. Also, 990324 I:\1635016.doc LW
I
the transport costs are decreased. A drawback, however, may be the difficu=Lty to deliver and to mount the different parts of the mechanism.
A further object of the invention is accordingly to facilitate the delivery of a brake application mechanism from a special_i_st manufacturer for mounting in a housing of a brake caliper manufactured by somebody else.
The Invention The above objects are according to the invention l0 fulfilled in that the brake application mechanism including the thrust sleeves, the cross bar and the lever is a self-sustained unit for insertion in the housing.
In this way the different parts of the brake applica tion mechanism can not only be manufactured by a specialist manufacturer but also mounted as a self-sustained unit.
This unit may be delivered to the vehicle manufacturer, where it is easily mounted by workers without specialist skill in the caliper housing provided in situ.
In a practical case the cover and the cross bar can be resiliently connected by means of screws extending through holes :in the cross bar and attached to the cover, a compression spring being arranged between the head of each screw and a spring sleeve bearing against the cross bar. By this design the cover and the rest of the mechanism are held together as a unit even in the absence of the housing, which accordingly may be manufactured separately, but a return force for the cross bar and accordingly for the thrust sleeves is obtained.
Brief Description of the Drawings The invention will be described in further detail be-low reference being made to the accompanying drawings, in which Fig 1 is a section of a disc brake caliper according to the invention (along the lines I-I in Fig 2), 990324 I:\1635016.doc LW
the transport costs are decreased. A drawback, however, may be the difficu=Lty to deliver and to mount the different parts of the mechanism.
A further object of the invention is accordingly to facilitate the delivery of a brake application mechanism from a special_i_st manufacturer for mounting in a housing of a brake caliper manufactured by somebody else.
The Invention The above objects are according to the invention l0 fulfilled in that the brake application mechanism including the thrust sleeves, the cross bar and the lever is a self-sustained unit for insertion in the housing.
In this way the different parts of the brake applica tion mechanism can not only be manufactured by a specialist manufacturer but also mounted as a self-sustained unit.
This unit may be delivered to the vehicle manufacturer, where it is easily mounted by workers without specialist skill in the caliper housing provided in situ.
In a practical case the cover and the cross bar can be resiliently connected by means of screws extending through holes :in the cross bar and attached to the cover, a compression spring being arranged between the head of each screw and a spring sleeve bearing against the cross bar. By this design the cover and the rest of the mechanism are held together as a unit even in the absence of the housing, which accordingly may be manufactured separately, but a return force for the cross bar and accordingly for the thrust sleeves is obtained.
Brief Description of the Drawings The invention will be described in further detail be-low reference being made to the accompanying drawings, in which Fig 1 is a section of a disc brake caliper according to the invention (along the lines I-I in Fig 2), 990324 I:\1635016.doc LW
Fig 2 is a section of the caliper along the line III
II in Fig l, Fig 3 is a plan view of a lever in the caliper accor-ding to the invention, Fig 4 is a side view of the above lever, Fig 5 is a plan view (in two levels) of a sub assem-bly of the caliper according to the invention, including the lever shown in Figs 3 and 4, Fig 6 is an enlargement of the central part of Fig 2 for more clearly illustrating the adjuster part of the ca liper, Fig 7 is a plan view, partly in section, of an adjus-ter housing with its contents, Fig 8 is a sectional side view corresponding to Fig 1 but to a larger scale and showing a modified embodiment, and Fig 9 is a section corresponding to Fig 6 of the mo-dified embodiment of Fig 8.
Detailed Description of Preferred Embodiments A disc brake caliper, preferably for use in heavy road vehicles, is shown in Figs 1 and 2. As is well known in the art., a caliper of this kind is to be mounted in a vehicle underfx-ame astraddle of a brake disc (not shown) on a rotating axle of the vehicle.
The main components of the disc brake caliper are a housing 1 and a cover 2, which are attached to each other by means of scx-ews 3. Attached to the cover 2 is a brake cylinder 4, nox-mally a pneumatic brake cylinder, for deli-vering a brake force to the caliper. The brake cylinder 4 is only indicated in Fig 1 with dash dotted lines.
In a way to be described the brake force from the brake cylinder 4 is transmitted to a brake pad 5 engaging the brake disc (not shown). The reaction force at braking is taken up by a similar brake pad (not shown) attached to 990329 I:\1635016.doc LW
II in Fig l, Fig 3 is a plan view of a lever in the caliper accor-ding to the invention, Fig 4 is a side view of the above lever, Fig 5 is a plan view (in two levels) of a sub assem-bly of the caliper according to the invention, including the lever shown in Figs 3 and 4, Fig 6 is an enlargement of the central part of Fig 2 for more clearly illustrating the adjuster part of the ca liper, Fig 7 is a plan view, partly in section, of an adjus-ter housing with its contents, Fig 8 is a sectional side view corresponding to Fig 1 but to a larger scale and showing a modified embodiment, and Fig 9 is a section corresponding to Fig 6 of the mo-dified embodiment of Fig 8.
Detailed Description of Preferred Embodiments A disc brake caliper, preferably for use in heavy road vehicles, is shown in Figs 1 and 2. As is well known in the art., a caliper of this kind is to be mounted in a vehicle underfx-ame astraddle of a brake disc (not shown) on a rotating axle of the vehicle.
The main components of the disc brake caliper are a housing 1 and a cover 2, which are attached to each other by means of scx-ews 3. Attached to the cover 2 is a brake cylinder 4, nox-mally a pneumatic brake cylinder, for deli-vering a brake force to the caliper. The brake cylinder 4 is only indicated in Fig 1 with dash dotted lines.
In a way to be described the brake force from the brake cylinder 4 is transmitted to a brake pad 5 engaging the brake disc (not shown). The reaction force at braking is taken up by a similar brake pad (not shown) attached to 990329 I:\1635016.doc LW
the housing 1 at the other side of the brake disc (not shown), as is well known in the art.
The brake pad 5 is attached to a pad holder 6, which in turn - via a heat shield 7 - is attached to two thrust plates 81. Rotationally attached to these thrust plates 81 are thrust sleeves 8, which thus are axially and rotatio-nally movable _Ln the housing 1. The two thrust sleeves 8 are provided w_Lth external threads, and a cross bar 9, ha-ving two internally threaded bores 10 (Fig 5), is attached l0 to these thrust, sleeves 8; the three parts 8 and 9 form a brake force transmitting unit. The cross bar 9 is provided with a praject_Lon 9' engaging a corresponding recess in the housing 1 for t:he guiding of the cross bar 9.
Hold-off or return springs 11 are arranged between the housing 1 or rather the cover 2 and the cross bar 9 in the following way. The cross bar 9 is provided with bores 12 at its two ends. Screws 13 surrounded by the springs 11 pass freely through these holes 12. The screws 13 are atta-ched in corresponding holes in the cover 2. Each spring 11 is arranged between the head of the screw 13 and the bottom end of a spring sleeve 14 which bears against the shoulder on the cross bar 9 with its other end. By the described hold-off spring arrangement delivery of the mechanism as a unit including the hold-off springs is possible, in spite of the fact that the hold-off force acts between the cross bar 9 and the housing 1. The arrangement will act to hold the cover 2 and the rest of the mechanism together also in the absence of the housing 1.
A protect=ive bellows 15 is arranged between each 3o thrust plate 8:L and the housing 1 for preventing contami-nants to enter into the mechanism inside the housing 1.
Each bellows 15 is attached to the thrust plate 81 at the manufacture of the mechanism, whereas the attachment thereof to the housing 1 at the later mounting at the ve-990324 I:~1635016.doc LW ' hicle manufacturer can occur by means of a cup 16 pressed in place by the thrust plate 81.
The brake force from the piston rod (not shown) of the brake cylinder 4 is transmitted to the mechanism, espe-5 cially the cro:~s bar 9, by means of a lever 17. The lever 17 consists in essence of an arm 18 extending out from what could be called a curved wedge 19 having cylindrical sur-faces in engagement with corresponding cylindrical surfaces of the cross bar 9 and bearing tappets 20. Each of these l0 bearing tappet: 20 rests by means of a bevel on the cover 2 and is connected thereto by means of a pin 21, so that it can be regarded as a part of the cover 2.
As will appear below there are two bearing tappets 20, and an adjuster mechanism 28 is arranged between them.
An inner cylindrical surface 19' of the curved wedge 19 cooperates with the bearing tappets 20, whereas an outer cylindrical surface 19" with larger radius than the inner cylindrical surface 19' cooperates with the cross bar 9.
The centez-s for these two cylindrical surfaces 19' and 19"
are offset. in relation to each other, as appears especially well in Fig 4, where the center for the outer cylindrical surface 19" is higher than that of the inner cylindrical surface 19'.
Inner needle bearings 22 with inner roller cages 23 are arranged between the inner cylindrical surface 19' and the bearing tappets 20. In a similar manner outer needle bearings 24 wil~h outer roller cages 25 are arranged between the outer cylindrical surface 19" and the cross bar 9. Each outer roller cage 25 is held in a hardened insert 25' held in place by a pin 25" in the cross bar 9 (Figs 5 and 6).
The purpose of these needle bearings is to enable a high efficiency for the engagement between the curved wedge 19 and the curved surfaces cooperating therewith.
Where the lever 17 moves from its position to the right in Fig 1, drawn with full lines, to its position to 990324 I:\1635016.doc LW
The brake pad 5 is attached to a pad holder 6, which in turn - via a heat shield 7 - is attached to two thrust plates 81. Rotationally attached to these thrust plates 81 are thrust sleeves 8, which thus are axially and rotatio-nally movable _Ln the housing 1. The two thrust sleeves 8 are provided w_Lth external threads, and a cross bar 9, ha-ving two internally threaded bores 10 (Fig 5), is attached l0 to these thrust, sleeves 8; the three parts 8 and 9 form a brake force transmitting unit. The cross bar 9 is provided with a praject_Lon 9' engaging a corresponding recess in the housing 1 for t:he guiding of the cross bar 9.
Hold-off or return springs 11 are arranged between the housing 1 or rather the cover 2 and the cross bar 9 in the following way. The cross bar 9 is provided with bores 12 at its two ends. Screws 13 surrounded by the springs 11 pass freely through these holes 12. The screws 13 are atta-ched in corresponding holes in the cover 2. Each spring 11 is arranged between the head of the screw 13 and the bottom end of a spring sleeve 14 which bears against the shoulder on the cross bar 9 with its other end. By the described hold-off spring arrangement delivery of the mechanism as a unit including the hold-off springs is possible, in spite of the fact that the hold-off force acts between the cross bar 9 and the housing 1. The arrangement will act to hold the cover 2 and the rest of the mechanism together also in the absence of the housing 1.
A protect=ive bellows 15 is arranged between each 3o thrust plate 8:L and the housing 1 for preventing contami-nants to enter into the mechanism inside the housing 1.
Each bellows 15 is attached to the thrust plate 81 at the manufacture of the mechanism, whereas the attachment thereof to the housing 1 at the later mounting at the ve-990324 I:~1635016.doc LW ' hicle manufacturer can occur by means of a cup 16 pressed in place by the thrust plate 81.
The brake force from the piston rod (not shown) of the brake cylinder 4 is transmitted to the mechanism, espe-5 cially the cro:~s bar 9, by means of a lever 17. The lever 17 consists in essence of an arm 18 extending out from what could be called a curved wedge 19 having cylindrical sur-faces in engagement with corresponding cylindrical surfaces of the cross bar 9 and bearing tappets 20. Each of these l0 bearing tappet: 20 rests by means of a bevel on the cover 2 and is connected thereto by means of a pin 21, so that it can be regarded as a part of the cover 2.
As will appear below there are two bearing tappets 20, and an adjuster mechanism 28 is arranged between them.
An inner cylindrical surface 19' of the curved wedge 19 cooperates with the bearing tappets 20, whereas an outer cylindrical surface 19" with larger radius than the inner cylindrical surface 19' cooperates with the cross bar 9.
The centez-s for these two cylindrical surfaces 19' and 19"
are offset. in relation to each other, as appears especially well in Fig 4, where the center for the outer cylindrical surface 19" is higher than that of the inner cylindrical surface 19'.
Inner needle bearings 22 with inner roller cages 23 are arranged between the inner cylindrical surface 19' and the bearing tappets 20. In a similar manner outer needle bearings 24 wil~h outer roller cages 25 are arranged between the outer cylindrical surface 19" and the cross bar 9. Each outer roller cage 25 is held in a hardened insert 25' held in place by a pin 25" in the cross bar 9 (Figs 5 and 6).
The purpose of these needle bearings is to enable a high efficiency for the engagement between the curved wedge 19 and the curved surfaces cooperating therewith.
Where the lever 17 moves from its position to the right in Fig 1, drawn with full lines, to its position to 990324 I:\1635016.doc LW
the left in Fic~ 1, drawn with dashed lines, the curved wedge 19 will be forced in between the bearing tappets 20 and the cross bar 9 and push the latter to the left in the drawing, accomplishing a brake application via the thrust sleeves 8. For axial guidance the lever 17 is provided with an outer ridge 26 between the two inserts 25'. Further, there are lower pins 27 in the inner cylindrical surface 19' and the outer cylindrical surface 19", respectively, for circumferential guidance of the roller cages 23 and 25, l0 respectively.
The adju:~ter function of the disc brake caliper according to the invention will now be described. The ad-juster mechani:~m 28 is arranged between the bearing tappets 20 and is most clearly shown in Figs 6 and 7. However, the general arrangE:ment will first be described with reference to Fig 2.
The adju:~ter mechanism 28 to be described is arranged on a splined shaft 29, which extends through the adjuster mechanism 28 and freely through the bearing tappets 20.
Either end the splined shaft 29 is provided with a bevel gear 30 meshing with a corresponding bevel gear 31 on a splined adjustrnent shaft 32 in engagement with internal splines in each thrust sleeve 8. By turning the splined shaft 29 by means of the adjuster mechanism 28 in a way to be described below, the adjustment shafts 32 will be syn-chronously turned for turning the thrust sleeves 8 in the cross bar 9 and moving them forward in order to compensate for wear of the the brake pad 5. ' As most clearly appears from Fig 7, the adjuster mechanism 28 has an adjuster housing 33. This adjuster hou-sing 33 is arranged between the two bearing tappets 20 and also in a suit<~ble recess in the cover 2, as appears from Fig 6. The adjuster housing is provided with a key groove 33' for a pin :34 (Fig 6) attached in the curved wedge 19 990324 I:~1635016.doc LW
The adju:~ter function of the disc brake caliper according to the invention will now be described. The ad-juster mechani:~m 28 is arranged between the bearing tappets 20 and is most clearly shown in Figs 6 and 7. However, the general arrangE:ment will first be described with reference to Fig 2.
The adju:~ter mechanism 28 to be described is arranged on a splined shaft 29, which extends through the adjuster mechanism 28 and freely through the bearing tappets 20.
Either end the splined shaft 29 is provided with a bevel gear 30 meshing with a corresponding bevel gear 31 on a splined adjustrnent shaft 32 in engagement with internal splines in each thrust sleeve 8. By turning the splined shaft 29 by means of the adjuster mechanism 28 in a way to be described below, the adjustment shafts 32 will be syn-chronously turned for turning the thrust sleeves 8 in the cross bar 9 and moving them forward in order to compensate for wear of the the brake pad 5. ' As most clearly appears from Fig 7, the adjuster mechanism 28 has an adjuster housing 33. This adjuster hou-sing 33 is arranged between the two bearing tappets 20 and also in a suit<~ble recess in the cover 2, as appears from Fig 6. The adjuster housing is provided with a key groove 33' for a pin :34 (Fig 6) attached in the curved wedge 19 990324 I:~1635016.doc LW
and constituting a means for transferring motions to the adjuster housing 33.
The adju~;ter housing 33 contains the following ele ments to be further described: an adjustment spring 35, a guiding sleeve 36, a one-way spring 37, a driving ring 38, an adjuster hub 39 and a locking ring 40 in the end of the adjuster housing 33 for keeping all the other parts to-gether in the housing.
The adju:;tment spring or friction spring 35 has an l0 outer diameter which is slightly larger than the inner dia-meter of the housing 33 and is in friction engagement therewith. At one end it is provided with a radial exten-sion 35' engaging a corresponding recess 38' of the driving ring 38. A control distance or A-measure for the adjuster can be formed Either in that the groove 33' has a greater circumferentia7_ dimension than the diameter of the pin 34 or that the recess 38' in the driving ring 38 has a greater circumferential_ dimension than the adjustment spring exten-sion 35'. A radial extension of the one-way spring or lock-ing spring 37 is attached to the driving ring 38, and two or three turns of this spring may be in firm engagement with the driving ring for providing assistance to the force transmission, whereas the remaining turns of the spring 37 may engage the adjuster hub 39 at mutual rotation in one direction, the driving direction. The purpose of the gui-ding sleeve 36 between the two springs 35 and 37 is to guide them and thus to assist in obtaining an accurate clutch function. The adjuster hub 39 is in splines engage-ment with the :~plined shaft 29 (Fig 6).
During an application stroke, i a when the lever 17 is moved to the left in Fig 1 by the brake cylinder 4 and the curved wedge 19 is pushing the cross bar 9 (and associ-ated parts) to the left in Fig 1, the control distance or A-measure defined in either of the two places mentioned above will_ fir:~t be traversed. At the continued application 990324 I:\1635016.doc LW
The adju~;ter housing 33 contains the following ele ments to be further described: an adjustment spring 35, a guiding sleeve 36, a one-way spring 37, a driving ring 38, an adjuster hub 39 and a locking ring 40 in the end of the adjuster housing 33 for keeping all the other parts to-gether in the housing.
The adju:;tment spring or friction spring 35 has an l0 outer diameter which is slightly larger than the inner dia-meter of the housing 33 and is in friction engagement therewith. At one end it is provided with a radial exten-sion 35' engaging a corresponding recess 38' of the driving ring 38. A control distance or A-measure for the adjuster can be formed Either in that the groove 33' has a greater circumferentia7_ dimension than the diameter of the pin 34 or that the recess 38' in the driving ring 38 has a greater circumferential_ dimension than the adjustment spring exten-sion 35'. A radial extension of the one-way spring or lock-ing spring 37 is attached to the driving ring 38, and two or three turns of this spring may be in firm engagement with the driving ring for providing assistance to the force transmission, whereas the remaining turns of the spring 37 may engage the adjuster hub 39 at mutual rotation in one direction, the driving direction. The purpose of the gui-ding sleeve 36 between the two springs 35 and 37 is to guide them and thus to assist in obtaining an accurate clutch function. The adjuster hub 39 is in splines engage-ment with the :~plined shaft 29 (Fig 6).
During an application stroke, i a when the lever 17 is moved to the left in Fig 1 by the brake cylinder 4 and the curved wedge 19 is pushing the cross bar 9 (and associ-ated parts) to the left in Fig 1, the control distance or A-measure defined in either of the two places mentioned above will_ fir:~t be traversed. At the continued application 990324 I:\1635016.doc LW
stroke the adjustment spring 35 will be in engagement with the housing 33 by means of friction forces and will turn the thrust: sleeves 8 for slack decreasing, if the slack between the brake pad and the brake disc is excessive in relation to thE: set control distance, until a counter-force and thus a torque is built up, when the brake pad engages the brake disc.. The force transmission during adjustment occurs by mean: of the one-way spring 35 drivingly acting between the driving ring 38 and the adjuster hub 39. When the brake pad is in engagement with the brake disc, the torque is such that slip will occur between the housing 33 and the adjustment spring 35.
During the release stroke no torque is transmitted by the one-way spring 37 between the driving ring 38 and the adjuster hub 39. If the slack between the brake pads and the brake disc was excessive and a portion of this exces-sive slack has been taken up by a small rotation of the thrust sleeve F3 in relation to the cross bar 9, this new relative posit_~on will be maintained during the release stroke .
A modified design for the adjuster mechanism is shown in Figs 8 and 9. These figures are only provided with refe-rence numerals for parts that are referred to below and/or are different _Ln relation to the first embodiment, shown in the previous f _Lgures .
In this embodiment according to Figs 8 and 9 the movement from t:he curved wedge 19 to the adjuster housing 33 is not performed in the same way as in the previous em-bodiment. Instead the lever 17 is provided with an arcuate 3o yoke 17' having an internal, cylindrical gear segment 17"
concentric: with the bearing tappets 20. The housing 33 is provided with external gears, and a gear wheel 41 meshing with the gear :segment 17" and with the adjuster housing 33 is rotatably journalled in the cover 2. For obtaining the desired result with this modified embodiment the contents 990324 I:\1635016.doo LW
During the release stroke no torque is transmitted by the one-way spring 37 between the driving ring 38 and the adjuster hub 39. If the slack between the brake pads and the brake disc was excessive and a portion of this exces-sive slack has been taken up by a small rotation of the thrust sleeve F3 in relation to the cross bar 9, this new relative posit_~on will be maintained during the release stroke .
A modified design for the adjuster mechanism is shown in Figs 8 and 9. These figures are only provided with refe-rence numerals for parts that are referred to below and/or are different _Ln relation to the first embodiment, shown in the previous f _Lgures .
In this embodiment according to Figs 8 and 9 the movement from t:he curved wedge 19 to the adjuster housing 33 is not performed in the same way as in the previous em-bodiment. Instead the lever 17 is provided with an arcuate 3o yoke 17' having an internal, cylindrical gear segment 17"
concentric: with the bearing tappets 20. The housing 33 is provided with external gears, and a gear wheel 41 meshing with the gear :segment 17" and with the adjuster housing 33 is rotatably journalled in the cover 2. For obtaining the desired result with this modified embodiment the contents 990324 I:\1635016.doo LW
of the adjuster housing 33 can be the same as in the first embodiment. but reversed.
By this design it is possible to obtain a higher ex-change ratio and thus a faster takeup of excessive slack.
By this design it is possible to obtain a higher ex-change ratio and thus a faster takeup of excessive slack.
Claims (7)
1. A brake application mechanism for a disc brake caliper, the caliper comprising a housing (1) to be arranged astraddle of a vehicle brake disc, a cover (2) attached to the housing, two thrust sleeves (8), which are connected to a brake pad holder (6) provided with a brake pad (5) for braking engagement with the brake disc and which are axially movable in the housing at a distance from each other, a cross bar (9) connecting the two thrust sleeves, and a lever (17) for transmitting a brake force from a brake cylinder (4), attached to the caliper, to the cross bar, characterized in that the mechanism including the thrust sleeves (8), the cross bar (9) and the lever (17) is a self-sustained unit for insertion in the housing (1).
2. A mechanism according to claim 1, characterized in that the cover (2) and the cross bar (9) are resiliently connected by means of screws (13) extending through holes (12) in the cross bar and attached to the cover, a compression spring (11) being arranged between the head of each screw and a spring sleeve (14) bearing against the cross bar.
3. A mechanism according to claim 1, characterized in that bearing tappets (20), parallel with the cross bar (9), are fixedly connected to the inside of the cover (2) and in that the lever (17), besides an arm (18) for actuation by the brake cylinder (4), comprises a curved wedge (19), having an inner cylindrical surface (19') in engagement with outer cylindrical surfaces of the bearing tappets and an outer cylindrical surface (19") - with greater radius than the inner cylindrical surface - in engagement with an inner cylindrical surface in the cross bar.
4. A mechanism according to claim 1, characterized in that an adjuster mechanism (28) is arranged on a splined shaft (29) rotatably journalled in the bearing tappets (20).
5. A mechanism according to claim 4, characterized in that the adjuster mechanism (28) is arranged between the two bearing tappets (20).
6. A mechanism according to claim 5, characterized in that an adjuster housing (33) of the adjuster mechanism (28) is provided with external gears in engagement with a gear wheel (41) rotatably journalled in the cover (2), the gear wheel (41) in turn being in engagement with an internal gear segment (17") in an arcuate yoke (17') of the lever (17).
7. A mechanism according to claim 4, characterized in that each end of the splined shaft (29) is connected to an adjustment shaft (35) in internal splines connection with the thrust sleeve (8) by means of bevel gears (30, 31) and in that the thrust sleeve is rotationally connected to the brake pad holder (6) and is in thread connection with the cross bar (9).
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| SE9403624-1 | 1994-10-24 | ||
| SE9403624A SE505339C2 (en) | 1994-10-24 | 1994-10-24 | Disc brake caliper |
| CA002201901A CA2201901A1 (en) | 1994-10-24 | 1995-10-24 | A disc brake caliper |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002201901A Division CA2201901A1 (en) | 1994-10-24 | 1995-10-24 | A disc brake caliper |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA2277649A1 true CA2277649A1 (en) | 1996-05-02 |
Family
ID=31189078
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002277649A Abandoned CA2277649A1 (en) | 1994-10-24 | 1995-10-24 | A brake application mechanism for a disc brake caliper |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2277649A1 (en) |
-
1995
- 1995-10-24 CA CA002277649A patent/CA2277649A1/en not_active Abandoned
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EEER | Examination request | ||
| FZDE | Dead |