Title of Invention	A BRAKE ARM APPARATUS
Abstract	ABSTRACT (2925/MAS/97) A BRAKE ARM APPARATUS The present invention relates to a brake arm apparatus comprising: a brake arm having a fitting bore a fixing sleeve having a first end and a second end, wherein the first end is disposed in the fitting bore for pivotally supporting the brake arm; a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame; a return spring disposed between the brake arm and the second end of the fixing sleeve; wherein a first end of the return spring is retained at the brake arm; and wherein the second end of the fixing sleeve has a second spring end retainer for retaining a second end of the return spring independently of the fixing base; characterized in that the fixing sleeve has a generally cylindrical portion which extends entirely through the brake arm.

Title of Invention

A BRAKE ARM APPARATUS

Abstract

ABSTRACT (2925/MAS/97) A BRAKE ARM APPARATUS The present invention relates to a brake arm apparatus comprising: a brake arm having a fitting bore a fixing sleeve having a first end and a second end, wherein the first end is disposed in the fitting bore for pivotally supporting the brake arm; a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame; a return spring disposed between the brake arm and the second end of the fixing sleeve; wherein a first end of the return spring is retained at the brake arm; and wherein the second end of the fixing sleeve has a second spring end retainer for retaining a second end of the return spring independently of the fixing base; characterized in that the fixing sleeve has a generally cylindrical portion which extends entirely through the brake arm.

Full Text	The present invention is directed to braking devices for bicycles and, more particularly, to a cantilever-type brake which is provided with a pair of brake arms independently rotatably supported to respective fixing bases wherein return springs are provided between the brake arms and the fixing bases for biasing the brake arms in the direction of enlarging a distance between the respective brake shoes and the wheel rim. Figure 1 discloses a known cantilever-type caliper brake 100 wherein a brake arm 104 having a brake shoe 108 is rotatably supported on a bushing 112 which, in turn, is coaxially mounted to a fixing base 116 welded to a front fork or a rear fork of the bicycle frame. Between the fixing base 116 and the brake arm 104 is interposed a return spring 120 for biasing the brake arm away from the wheel. The bushing 112 mounted between the brake arm 104 and the fixing base 116 ordinarily has one end 124 which extends entirely through the brake arm 104 and another end 128 which includes a radially extending portion 132 for covering a brake arm cavity 136 vhich houses the return spring 120. A bolt 140 threads into the fixing base 116 and abuts Igainst the first end 124 of the bushing 112 for retaining the brake arm 104 to the fixing base 16. The return spring 120 typically is formed as a coil spring which is mounted around the ixing base 116. One end 144 of the return spring 120 is retained to the brake arm 104, and he other end 148 of the return spring 120 is inserted through a hole 152 in the radially xtending portion 132 of the bushing 112 and through a hole 156 in the fixing base 116. Since the bolt 140 used to fix the brake arm 104 to the fixing base 116 contacts the rst end 124 of the bushing 112, the bushing 112 tends to twist or rotate around the fixing ase 116 when the bolt 140 is tightened. Twisting of the bushing 112 is undesirable because, ince the second end 148 of the spring 120 is retained in the radially extending portion 132 of the bushing 112, the spring tension will change and make proper alignment of the brake shoe 108 difficult. The second end 148 of the return spring 120, which extends through the radially extending portion 132 of the bushing 124 and into the fixing base 116, is intended to prevent such twisting by locking the bushing 112 to the fixing base 116. However, when a strong tightening force is applied to the bolt 140, the radially extending portion 132 of the bushing 112 tends to bend or shear off the second end 148 of the return spring 120. This, in turn, destroys the ability of the second end 148 of return spring 120 to prevent twisting of the bushing 112. Another disadvantage of conventional brake devices is that the hole 156 in the fixing base 116 into which the second end 148 of the return spring 120 is inserted is relatively small so as not to adversely affect the size or strength of the fixing base 116. As a result, the thickness of the return spring 120, and particularly the second end 148 of the return spring 120, must be limited accordingly. Thin retum springs fatigue very easily and cannot exert a strong biasing force. Thus, such a limitation on the thickness of the retum spring 120 makes it very difficult, if not impossible, to make heavy duty brake devices with thick retum springs. Yet another disadvantage of conventional brake devices is that the hole 156 in the fixing base 116 is usually placed in close proximity to the fixing base shaft on which the brake shoe is mounted. This, in turn, limits the cylindrical diameter of the retum spring which further decreases the ability of the retum spring to resist fatigue. The brake manufacturer must broLke take all these factors in consideration when designing the brake, so an optimum bake design cannot always be achieved. SUMMARY or THE DJVCI'mCTJ The present invention is directed to a cantilever brake device wherein the bushing sandwiched between the brake arm and the fixing base is nonrotatably fixed to the fixing base through a fixing member without using the second end of the retum spring, and wherein the second end of the return spring may be retained in the bushing by a stmcture which does not limit the thickness of the return spring. In one embodiment of the present invenfion, a brake arm apparatus includes a brake arm having a fitting bore; a fixing sleeve having a first end and a second end, wherein the first end of the fixing sleeve is disposed in the fitting bore for pivotally supporting the brake arm; and a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame. A return spring is disposed between the brake arm and the second end of the fixing sleeve, wherein a first end of the return spring is retained at the brake arm. The second end of the fixing sleeve includes a second spring end retainer for retaining a second end of the return spring. In a more specific embodiment, the second end of the fixing sleeve includes a radially extending member having one or more holes positioned at the extreme outer peripheral edge of the radially extending member into which the second spring end may be inserted. A fixing pin connects the second end of the fixing sleeve to the fixing sleeve to the fixing base. If desired, the fixing pin may be attached to the radially extending member and extend into a hole formed in the fixing base. Accordingly, the fixing pin may be formed from a very strong material to withstand large tightening forces of the attachment bolt, and the second spring end does not have to couple the fixing sleeve to the fixing base. The openings in the radially extending portion of the fixing sleeve may be made as large as desired to accommodate very thick return springs which, in turn do not fatigue easily and can provide strong biasing forces. The return springs also can have any desired cross sectional shape, e.g., square. Also, since the openings may be positioned on the extreme outer peripheral edge of the radially extending member, the return spring may have a large diameter to further resist fatigue. The brake manufacturer does not have to be concerned about the specific structure of the holes in the fixing base with regard to the return spring. Thus, the tension characteristics of the return spring can be determined independently of the construction of the fixing base. Accordingly, the present invention relates to a brake arm apparatus comprising: a brake arm having a fitting bore; a fixing sleeve having a first end and a second end, wherein the first end is disposed in the fitting bore for pivotally supporting the brake arm; a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame; a return spring disposed between the brake arm and the second end of the fixing sleeve; wherein a first end of the return spring is retained at the brake arm; and wherein the second end of the fixing sleeve has a second spring end retainer for retaining a second end of the return spring independently of the fixing base; characterized in that the fixing sleeve includes a generally cylindrical portion which extends entirely through the brake arm. With reference to the accompanying drawings, in which Figure 1 is a side cross sectional view of a prior art brake apparatus; Figure 2 is a fi-ont view of a particular embodiment of a bicycle brake according to the present invention; Figure 3 is a side cross sectional view of a lower portion of the right-hand side brake arm assembly shown in Figure 2; Figure 4 is a side cross sectional view of a lower portion of the left-hand side brake— arm assembly shown in Figure 2; and Figure 5 is an exploded view of the brake arm assembly shown in Figure 3. DETAILED DESCRIPTION OF THE EMBODIMENTS In Figures 2-5, a cantilever-type caliper brake is shown and constructed such that a pair of first and second brake arms 2 and 3 having brake shoes 4 and 5 each are rotatably supported to a pair of fixing bases 1. Fixing bases 1 are fixed by welding to a front fork F or a rear fork at the bicycle frame. Between the fixing bases 1 and the brake arms 2 and 3 are interposed a pair of first and second return springs 6 and 7, respectively, to bias the brake arms 2 and 3 in the direction of enlarging the distance between the brake shoes 4 and 5. A control wire W is pulled to rotate the brake arms 2 and 3 each in the direction of the arrow X in Figure 2 against the biasing force of return springs 6 and 7, thereby exerting a braking action. Thereafter, the wire W is loosened to enable each brake arm 2 or 3 to rotate by the biasing force of each return spring 6 or 7 in the direction of the arrow Y, thereby restoring the brake arms 2 and 3 to their rest position. The fixing bases 1 each comprise a mounting section 11 and a tubular pivot shaft 12 that projects from a surface 13 of mounting section 11. Mounting section 11 is adapted to be affixed to the frame F by welding or some other means. The tubular pivot shafts 12 are provided at their inner peripheries with screw threads 15 (Figure 5). One or more holes 59 are formed in surface 13 for reasons discussed below. A fixing sleeve 14 is fitted on the outer peripheral surface of each pivot shaft 12. Fixing sleeve 14 includes a generally cylindrical tubular member 56 which extends along a longitudinal axis X. A radially extending flange-shaped or aimular member 51 is integrally formed as one piece with or is fitted at one end of fixing sleeve 14 (e.g., by welding or by some other suitable bonding method) and extends generally perpendicularly to the longitudinal axis X. Annular member 51 includes a plurality 3f openings or grooves 52 for reasons discussed below. A fixing pin 50 nonrotatably couples mnular member 51, and hence fixing sleeve 14, to fixing base 1. In this embodiment, fixing 3in 50 is riveted or otherwise bonded to a side face 54 of annular member 51, extends in the lirection of the longitudinal axis X perpendicular to side face 54, and is shaped for extending nto a hole 59 formed in surface 13 of fixing base 1. The brake arms 2 and 3 comprise bell cranks, each bent at an intermediate portion. Brake arms 2 and 3 are provided at one end with pivot portions 20 and 30 having fitting bores 21 and 31, at their other end with wire mounting portions 22 and 32, and at their intermediate bent portions with brake shoe mounting portions 23 and 33 respectively. In this embodiment, fitting bores 21 and 31 are fitted onto the outer peripheries of tubular bushings 35 which, in turn, are mounted to the outer peripheries of fixing sleeves 14 so that each cylindrical portion 56 extends entirely through the brake arms 2 and 3. Screws 9 screw into the threaded bores 15 in the pivot shafts 12 to mount the brake arms 2 and 3 rotatably thereto through spacers 36. The brake shoes 4 and 5 are mounted on the shoe mounting portions 23 and 33 though clamp shafts 10. At the pivot portions 20 and 30 are provided cavities 24 and 34, respectively, in continuation of one end of fitting bores 21 and 31. Cavities 24 and 34 open toward the fixing bases 1, and the return springs 6 and 7 are housed in the cavities 24 and 34, respectively. Annular members 51 help to close the ends of cavities 24 and 34. The control wire W, which is cormected at one end to a brake lever, is connected at its other end to the wire mounting portion 22 at the first brake arm 2. A connecting wire 90 connects the wire mounting portion 32 at the second brake arm 3 to a carrierBO securing the wire W. The return springs 6 and 7 comprise coil springs which coil around the cylindrical portions 56 of their respective fixing sleeve 14 and are both provided at respective ends with first spring ends 61 and 71 and second spring ends 62 and 72. First spring ends 61 and 71 are retained at the brake arms 2 and 3, and second spring ends 62 and 72 are inserted into a respective opening 52 in armular members 51. In this embodiment, between the first spring end 61 of the first return spring 6 and the first brake arm 2 is provided a biasing force adjusting means for adjusting a biasing force of the first return spring 6 to the first brake arm 2 so that it is equalized with the second return spring 7. The biasing force adjusting means comprises an adjuster 40 formed preferably of a screw and a substantially disc-shaped annular retainer 41 mounted around the cylindrical portion 56 of fixing sleeve 14. Retainer 41 is provided with a retaining portion 41a to retain the first spring end 61, and it is rotatable by thrust of the adjuster 40 to adjust the position of the first spring end 61. More specifically, the first brake arm 2 is provided with a threaded bore 25 extending tangentially of the cavity 24 and open at the outside surface of the first brake arm 2, with adjuster 40 screwing into the threaded bore 25. The retainer 41 is housed rotatably in the cavity 24, and first spring end 61 is retained to the retaining portion 41a. The retainer 41, as shown in Figure 5, is provided with a striking face 41b for abutting against the utmost end of the adjuster 40 and positioned diametrically symmetrically with the retaining portion 41a. Adjuster 40 is rotated to rotate retainer 41 and hence shift the first spring end 61 with respect to the first brake arm 2, thereby adjusting the biasing force of the first return spring 6 to the first brake arm 2 with respect to the second return spring 7. By using a separate mounting pin 50 to fix fixing sleeve 14 relative to fixing base 1, no shear force is imparted to spring ends 62 or 72. The brake manufacturer does not have to be concerned about the specific structure of the holes in the fixing base with regard to the -etum spring. Thus, the tension characteristics of the return spring can be determined ndependently of the construction of the fixing base. Also, fixing pin 50 may be formed of a /ery strong material to withstand much greater torque from screws 9. Holes 52 in annular nember 51 may be made much larger than holes 59 in fixing base 1 and with varying shapes 0 accommodate much thicker return springs (or return springs of any desired cross sectional hape), and the position of holes 52 at the outer peripheral edge of annular member 51 ccommodate return springs with a large diameter. As a result, greater flexibility in the election of components is available, and a much sturdier structure can be manufactured. While the above is a description of various embodiments of the present invention, arther modifications may be employed without departing from the spirit and scope of the resent invention. For example, the biasing force adjusting means may use adjuster 40 only so lat the utmost end thereof may abut against the first spring end 61, or the adjuster 40 may be nitted and retainer 41 may be provided with a dial operable from the exterior to thereby rectly rotate the retainer 41. Also alternatively, a cam body may be used. Thus, the scope of the invention should not be limited by the specific structures sclosed. Instead, the true scope of the invention should be determined by the following lims. Of course, although labeling symbols are used in the claims in order to facilitate ference to the figures, the present invenfion is not intended to be limited to the constructions the appended figures by such labeling. WE CLAIM; 1. A brake arm apparatus comprising: a brake arm (2,3) having a fitting bore (21,31); a fixing sleeve (14) having a first end and a second end, wherein the first end is disposed in the fitting bore (21,31) for pivotally supporting the brake arm (2,3) a fixing member (50) attached to the second end of the fixing sleeve (14) for fixing the fixing sleeve (14) to a fixing base (1) attached to a bicycle frame; a return spring (6,7) disposed between the brake arm (2,3) and the second end of the fixing sleeve (14); wherein a first end (61,71) of the return spring (6,7) is retained at the brake arm (2,3); and wherein the second end of the fixing sleeve (14) has a second spring end retainer (52) for retaining a second end (62,72) of the return spring (6,7) independently of the fixing base; characterized in that the fixing sleeve (14) has a generally cylindrical portion (56) which extends entirely through the brake arm (2). 2. The apparatus according to claim 1, wherein the return spring (6,7) is coiled around the cylindrical portion (56) of the fixing sleeve (14). 3. The apparatus according to any one of the preceding claims, wherein the fixing member (50) comprises a pin. 4. The apparatus according to any one of the preceding claims, wherein the second end of the fixing sleeve (14) has a radially extending member (51), and wherein the second spring end retainer (52) is disposed at the radially extending member (51). 5. The apparatus according to claim 4, wherein the radially extending member (51) has an opening (52) into which the second spring end (62,72) is inserted, and wherein the opening forms the second spring end retainer (52). 6. The apparatus according to claim 5, wherein the radially extending member (51) has a plurality of the openings (52), each of which is adapted to receive the second spring end (62,72) therein. 7. The apparatus according to any one of the claims 4 to 6, wherein the fixing member (50) comprises a fixing pin (50). 8. The apparatus according to any one of the claims 4 to 7, wherein the fixing sleeve (14) extends along a longitudinal axis (X), and wherein the radially extending member (51) extends generally perpendicularly to the longitudinal axis (X). 9. The apparatus according to claim 8, wherein the fixing member (50) extends in a direction of the longitudinal axis (X). 10. The apparatus according to any one of the claims 4 to 9, wherein the fixing member (50) extends generally perpendicularly to a side face (54) of the radially extending member (51). 11. The apparatus according to any one of the claims 4 to 10, wherein the radially extending member (51) is integrally formed as one piece with the cylindrical portion (56). 12. The apparatus according to any one of the preceding claims, comprising a spring bias adjusting member (41) disposed in the brake arm (2), wherein the spring bias adjusting member (41) has a first spring end retainer (41a) for retaining the first end (61) of the return spring (6). 13. The apparatus according to claim 12, wherein the spring bias adjusting member (41) comprises an annular member (41) mounted around the cylindrical portion (56) of the fixing sleeve (14). 14. The apparatus according to claim 13, wherein the annular member has an opening (41a) into which the first spring end (61) is inserted, and wherein the opening (41a) forms the first spring end retainer (41 a). 15. The apparatus according to claim 13 or 14, comprising an adjusting screw (40) threaded into the brake arm (2) for contacting an abutment (41b) formed on the annular member (41) for adjusting a rotational position of the annular member (41). 16. The apparatus according to any one of the preceding claims, wherein the fixing sleeve (14) is substantially tubular. 17. The apparatus according to any one of the preceding claims, wherein the first end of the fixing sleeve (14) extends entirely through the brake arm (2,3). 18. The apparatus according to any one of the preceding claims, wherein the fixing base (1) has a tubular shaft (12) having a threaded inner peripheral surface (15). 19. The apparatus according to claim 18, wherein the fixing sleeve (14) is coaxially mounted around the tubular shaft (12) of the fixing base (1). 20. The apparatus according to claim 18 or 19, wherein the return spring (6,7) is coiled around the fixing sleeve (14) between the brake arm (2,3) and the fixing base (1). 21. The apparatus according to any one of the claims 18 to 20, wherein the fixing member (50) extends into a hole (59) formed in the fixing base (1). 22. A brake arm apparatus substantially as herein described with reference to the accompanying drawings.

Full Text

The present invention is directed to braking devices for bicycles and, more particularly, to a cantilever-type brake which is provided with a pair of brake arms independently rotatably supported to respective fixing bases wherein return springs are provided between the brake arms and the fixing bases for biasing the brake arms in the direction of enlarging a distance between the respective brake shoes and the wheel rim.
Figure 1 discloses a known cantilever-type caliper brake 100 wherein a brake arm 104 having a brake shoe 108 is rotatably supported on a bushing 112 which, in turn, is coaxially mounted to a fixing base 116 welded to a front fork or a rear fork of the bicycle frame. Between the fixing base 116 and the brake arm 104 is interposed a return spring 120 for biasing the brake arm away from the wheel.
The bushing 112 mounted between the brake arm 104 and the fixing base 116 ordinarily has one end 124 which extends entirely through the brake arm 104 and another end 128 which includes a radially extending portion 132 for covering a brake arm cavity 136 vhich houses the return spring 120. A bolt 140 threads into the fixing base 116 and abuts Igainst the first end 124 of the bushing 112 for retaining the brake arm 104 to the fixing base 16. The return spring 120 typically is formed as a coil spring which is mounted around the ixing base 116. One end 144 of the return spring 120 is retained to the brake arm 104, and he other end 148 of the return spring 120 is inserted through a hole 152 in the radially xtending portion 132 of the bushing 112 and through a hole 156 in the fixing base 116.
Since the bolt 140 used to fix the brake arm 104 to the fixing base 116 contacts the rst end 124 of the bushing 112, the bushing 112 tends to twist or rotate around the fixing ase 116 when the bolt 140 is tightened. Twisting of the bushing 112 is undesirable because, ince the second end 148 of the spring 120 is retained in the radially extending portion 132 of

the bushing 112, the spring tension will change and make proper alignment of the brake shoe 108 difficult. The second end 148 of the return spring 120, which extends through the radially extending portion 132 of the bushing 124 and into the fixing base 116, is intended to prevent such twisting by locking the bushing 112 to the fixing base 116. However, when a strong tightening force is applied to the bolt 140, the radially extending portion 132 of the bushing 112 tends to bend or shear off the second end 148 of the return spring 120. This, in turn, destroys the ability of the second end 148 of return spring 120 to prevent twisting of the bushing 112.
Another disadvantage of conventional brake devices is that the hole 156 in the fixing base 116 into which the second end 148 of the return spring 120 is inserted is relatively small so as not to adversely affect the size or strength of the fixing base 116. As a result, the thickness of the return spring 120, and particularly the second end 148 of the return spring 120, must be limited accordingly. Thin retum springs fatigue very easily and cannot exert a strong biasing force. Thus, such a limitation on the thickness of the retum spring 120 makes it very difficult, if not impossible, to make heavy duty brake devices with thick retum springs.
Yet another disadvantage of conventional brake devices is that the hole 156 in the fixing base 116 is usually placed in close proximity to the fixing base shaft on which the brake shoe is mounted. This, in turn, limits the cylindrical diameter of the retum spring which
further decreases the ability of the retum spring to resist fatigue. The brake manufacturer must
broLke take all these factors in consideration when designing the brake, so an optimum bake design
cannot always be achieved.
SUMMARY or THE DJVCI'mCTJ
The present invention is directed to a cantilever brake device wherein the bushing sandwiched between the brake arm and the fixing base is nonrotatably fixed to the fixing base through a fixing member without using the second end of the retum spring, and wherein the second end of the return spring may be retained in the bushing by a stmcture which does not limit the thickness of the return spring. In one embodiment of the present invenfion, a brake arm apparatus includes a brake arm having a fitting bore; a fixing sleeve having a first end

and a second end, wherein the first end of the fixing sleeve is disposed in the fitting bore for pivotally supporting the brake arm; and a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame. A return spring is disposed between the brake arm and the second end of the fixing sleeve, wherein a first end of the return spring is retained at the brake arm. The second end of the fixing sleeve includes a second spring end retainer for retaining a second end of the return spring.
In a more specific embodiment, the second end of the fixing sleeve includes a radially extending member having one or more holes positioned at the extreme outer peripheral edge of the radially extending member into which the second spring end may be inserted. A fixing pin connects the second end of the fixing sleeve to the fixing sleeve to the fixing base. If desired, the fixing pin may be attached to the radially extending member and extend into a hole formed in the fixing base. Accordingly, the fixing pin may be formed from a very strong material to withstand large tightening forces of the attachment bolt, and the second spring end does not have to couple the fixing sleeve to the fixing base. The openings in the radially extending portion of the fixing sleeve may be made as large as desired to accommodate very thick return springs which, in turn do not fatigue easily and can provide strong biasing forces. The return springs also can have any desired cross sectional shape, e.g., square. Also, since the openings may be positioned on the extreme outer peripheral edge of the radially extending member, the return spring may have a large diameter to further resist fatigue. The brake manufacturer does not have to be concerned about the specific structure of the holes in the fixing base with regard to the return spring. Thus, the tension characteristics of the return spring can be determined independently of the construction of the fixing base.

Accordingly, the present invention relates to a brake arm apparatus comprising: a brake arm having a fitting bore; a fixing sleeve having a first end and a second end, wherein the first end is disposed in the fitting bore for pivotally supporting the brake arm; a fixing member attached to the second end of the fixing sleeve for fixing the fixing sleeve to a fixing base attached to a bicycle frame; a return spring disposed between the brake arm and the second end of the fixing sleeve; wherein a first end of the return spring is retained at the brake arm; and wherein the second end of the fixing sleeve has a second spring end retainer for retaining a second end of the return spring independently of the fixing base; characterized in that the fixing sleeve includes a generally cylindrical portion which extends entirely through the brake arm.
With reference to the accompanying drawings, in which
Figure 1 is a side cross sectional view of a prior art brake apparatus;
Figure 2 is a fi-ont view of a particular embodiment of a bicycle brake according to the present invention;
Figure 3 is a side cross sectional view of a lower portion of the right-hand side brake arm assembly shown in Figure 2;
Figure 4 is a side cross sectional view of a lower portion of the left-hand side brake—

arm assembly shown in Figure 2; and
Figure 5 is an exploded view of the brake arm assembly shown in Figure 3.
DETAILED DESCRIPTION OF THE EMBODIMENTS
In Figures 2-5, a cantilever-type caliper brake is shown and constructed such that a pair of first and second brake arms 2 and 3 having brake shoes 4 and 5 each are rotatably supported to a pair of fixing bases 1. Fixing bases 1 are fixed by welding to a front fork F or a rear fork at the bicycle frame. Between the fixing bases 1 and the brake arms 2 and 3 are interposed a pair of first and second return springs 6 and 7, respectively, to bias the brake arms 2 and 3 in the direction of enlarging the distance between the brake shoes 4 and 5. A control wire W is pulled to rotate the brake arms 2 and 3 each in the direction of the arrow X in Figure 2 against the biasing force of return springs 6 and 7, thereby exerting a braking action. Thereafter, the wire W is loosened to enable each brake arm 2 or 3 to rotate by the biasing force of each return spring 6 or 7 in the direction of the arrow Y, thereby restoring the brake arms 2 and 3 to their rest position.
The fixing bases 1 each comprise a mounting section 11 and a tubular pivot shaft 12 that projects from a surface 13 of mounting section 11. Mounting section 11 is adapted to be affixed to the frame F by welding or some other means. The tubular pivot shafts 12 are provided at their inner peripheries with screw threads 15 (Figure 5). One or more holes 59 are formed in surface 13 for reasons discussed below. A fixing sleeve 14 is fitted on the outer peripheral surface of each pivot shaft 12. Fixing sleeve 14 includes a generally cylindrical tubular member 56 which extends along a longitudinal axis X. A radially extending flange-shaped or aimular member 51 is integrally formed as one piece with or is fitted at one end of fixing sleeve 14 (e.g., by welding or by some other suitable bonding method) and extends generally perpendicularly to the longitudinal axis X. Annular member 51 includes a plurality 3f openings or grooves 52 for reasons discussed below. A fixing pin 50 nonrotatably couples mnular member 51, and hence fixing sleeve 14, to fixing base 1. In this embodiment, fixing 3in 50 is riveted or otherwise bonded to a side face 54 of annular member 51, extends in the lirection of the longitudinal axis X perpendicular to side face 54, and is shaped for extending nto a hole 59 formed in surface 13 of fixing base 1.

The brake arms 2 and 3 comprise bell cranks, each bent at an intermediate portion. Brake arms 2 and 3 are provided at one end with pivot portions 20 and 30 having fitting bores 21 and 31, at their other end with wire mounting portions 22 and 32, and at their intermediate bent portions with brake shoe mounting portions 23 and 33 respectively. In this embodiment, fitting bores 21 and 31 are fitted onto the outer peripheries of tubular bushings 35 which, in turn, are mounted to the outer peripheries of fixing sleeves 14 so that each cylindrical portion 56 extends entirely through the brake arms 2 and 3. Screws 9 screw into the threaded bores 15 in the pivot shafts 12 to mount the brake arms 2 and 3 rotatably thereto through spacers 36. The brake shoes 4 and 5 are mounted on the shoe mounting portions 23 and 33 though clamp shafts 10. At the pivot portions 20 and 30 are provided cavities 24 and 34, respectively, in continuation of one end of fitting bores 21 and 31. Cavities 24 and 34 open toward the fixing bases 1, and the return springs 6 and 7 are housed in the cavities 24 and 34, respectively. Annular members 51 help to close the ends of cavities 24 and 34. The control wire W, which is cormected at one end to a brake lever, is connected at its other end to the wire mounting portion 22 at the first brake arm 2. A connecting wire 90 connects the wire mounting portion 32 at the second brake arm 3 to a carrierBO securing the wire W.
The return springs 6 and 7 comprise coil springs which coil around the cylindrical portions 56 of their respective fixing sleeve 14 and are both provided at respective ends with first spring ends 61 and 71 and second spring ends 62 and 72. First spring ends 61 and 71 are retained at the brake arms 2 and 3, and second spring ends 62 and 72 are inserted into a respective opening 52 in armular members 51. In this embodiment, between the first spring end 61 of the first return spring 6 and the first brake arm 2 is provided a biasing force adjusting means for adjusting a biasing force of the first return spring 6 to the first brake arm 2 so that it is equalized with the second return spring 7. The biasing force adjusting means comprises an adjuster 40 formed preferably of a screw and a substantially disc-shaped annular retainer 41 mounted around the cylindrical portion 56 of fixing sleeve 14. Retainer 41 is provided with a retaining portion 41a to retain the first spring end 61, and it is rotatable by thrust of the adjuster 40 to adjust the position of the first spring end 61. More specifically, the first brake arm 2 is provided with a threaded bore 25 extending tangentially of the cavity 24 and open at the outside surface of the first brake arm 2, with adjuster 40 screwing into the threaded bore 25. The retainer 41 is housed rotatably in the cavity 24, and first spring end 61

is retained to the retaining portion 41a. The retainer 41, as shown in Figure 5, is provided with a striking face 41b for abutting against the utmost end of the adjuster 40 and positioned diametrically symmetrically with the retaining portion 41a. Adjuster 40 is rotated to rotate retainer 41 and hence shift the first spring end 61 with respect to the first brake arm 2, thereby adjusting the biasing force of the first return spring 6 to the first brake arm 2 with respect to the second return spring 7.
By using a separate mounting pin 50 to fix fixing sleeve 14 relative to fixing base 1, no shear force is imparted to spring ends 62 or 72. The brake manufacturer does not have to be concerned about the specific structure of the holes in the fixing base with regard to the -etum spring. Thus, the tension characteristics of the return spring can be determined ndependently of the construction of the fixing base. Also, fixing pin 50 may be formed of a /ery strong material to withstand much greater torque from screws 9. Holes 52 in annular nember 51 may be made much larger than holes 59 in fixing base 1 and with varying shapes 0 accommodate much thicker return springs (or return springs of any desired cross sectional hape), and the position of holes 52 at the outer peripheral edge of annular member 51 ccommodate return springs with a large diameter. As a result, greater flexibility in the election of components is available, and a much sturdier structure can be manufactured.
While the above is a description of various embodiments of the present invention, arther modifications may be employed without departing from the spirit and scope of the resent invention. For example, the biasing force adjusting means may use adjuster 40 only so lat the utmost end thereof may abut against the first spring end 61, or the adjuster 40 may be nitted and retainer 41 may be provided with a dial operable from the exterior to thereby rectly rotate the retainer 41. Also alternatively, a cam body may be used.
Thus, the scope of the invention should not be limited by the specific structures sclosed. Instead, the true scope of the invention should be determined by the following lims. Of course, although labeling symbols are used in the claims in order to facilitate ference to the figures, the present invenfion is not intended to be limited to the constructions the appended figures by such labeling.

WE CLAIM;
1. A brake arm apparatus comprising:
a brake arm (2,3) having a fitting bore (21,31);
a fixing sleeve (14) having a first end and a second end, wherein the first end is disposed in the fitting bore (21,31) for pivotally supporting the brake arm (2,3)
a fixing member (50) attached to the second end of the fixing sleeve (14) for fixing the fixing sleeve (14) to a fixing base (1) attached to a bicycle frame;
a return spring (6,7) disposed between the brake arm (2,3) and the second end of the fixing sleeve (14);
wherein a first end (61,71) of the return spring (6,7) is retained at the brake arm (2,3); and
wherein the second end of the fixing sleeve (14) has a second spring end retainer (52) for retaining a second end (62,72) of the return spring (6,7) independently of the fixing base;
characterized in that the fixing sleeve (14) has a generally cylindrical portion (56) which extends entirely through the brake arm (2).
2. The apparatus according to claim 1, wherein the return spring (6,7) is coiled around the cylindrical portion (56) of the fixing sleeve (14).
3. The apparatus according to any one of the preceding claims, wherein the fixing member (50) comprises a pin.
4. The apparatus according to any one of the preceding claims, wherein the second end of the fixing sleeve (14) has a radially extending member (51), and wherein the second spring end retainer (52) is disposed at the radially extending member (51).

5. The apparatus according to claim 4, wherein the radially extending member (51) has an opening (52) into which the second spring end (62,72) is inserted, and wherein the opening forms the second spring end retainer (52).
6. The apparatus according to claim 5, wherein the radially extending member (51) has a plurality of the openings (52), each of which is adapted to receive the second spring end (62,72) therein.
7. The apparatus according to any one of the claims 4 to 6, wherein the fixing member (50) comprises a fixing pin (50).
8. The apparatus according to any one of the claims 4 to 7, wherein the fixing sleeve (14) extends along a longitudinal axis (X), and wherein the radially extending member (51) extends generally perpendicularly to the longitudinal axis (X).
9. The apparatus according to claim 8, wherein the fixing member (50) extends in a direction of the longitudinal axis (X).

10. The apparatus according to any one of the claims 4 to 9, wherein the fixing member (50) extends generally perpendicularly to a side face (54) of the radially extending member (51).
11. The apparatus according to any one of the claims 4 to 10, wherein the radially extending member (51) is integrally formed as one piece with the cylindrical portion (56).
12. The apparatus according to any one of the preceding claims, comprising a spring bias adjusting member (41) disposed in the brake arm (2), wherein the spring bias adjusting member (41) has a first spring end retainer (41a) for retaining the first end (61) of the return spring (6).

13. The apparatus according to claim 12, wherein the spring bias adjusting member (41) comprises an annular member (41) mounted around the cylindrical portion (56) of the fixing sleeve (14).
14. The apparatus according to claim 13, wherein the annular member has an opening (41a) into which the first spring end (61) is inserted, and wherein the opening (41a) forms the first spring end retainer (41 a).
15. The apparatus according to claim 13 or 14, comprising an adjusting screw (40) threaded into the brake arm (2) for contacting an abutment (41b) formed on the annular member (41) for adjusting a rotational position of the annular member (41).
16. The apparatus according to any one of the preceding claims, wherein the fixing sleeve (14) is substantially tubular.
17. The apparatus according to any one of the preceding claims, wherein the first end of the fixing sleeve (14) extends entirely through the brake arm (2,3).
18. The apparatus according to any one of the preceding claims, wherein the fixing base (1) has a tubular shaft (12) having a threaded inner peripheral surface (15).
19. The apparatus according to claim 18, wherein the fixing sleeve (14) is coaxially mounted around the tubular shaft (12) of the fixing base (1).
20. The apparatus according to claim 18 or 19, wherein the return spring (6,7) is coiled around the fixing sleeve (14) between the brake arm (2,3) and the fixing base
(1).

21. The apparatus according to any one of the claims 18 to 20, wherein the fixing
member (50) extends into a hole (59) formed in the fixing base (1).
22. A brake arm apparatus substantially as herein described with reference to the
accompanying drawings.

Documents:

2925-mas-1997 abstract-duplicate.pdf

2925-mas-1997 abstract.pdf

2925-mas-1997 claims-duplicate.pdf

2925-mas-1997 claims.pdf

2925-mas-1997 correspondnece-others.pdf

2925-mas-1997 correspondnece-po.pdf

2925-mas-1997 description(complete)-duplicate.pdf

2925-mas-1997 description(complete).pdf

2925-mas-1997 drawings.pdf

2925-mas-1997 form-19.pdf

2925-mas-1997 form-2.pdf

2925-mas-1997 form-26.pdf

2925-mas-1997 form-4.pdf

2925-mas-1997 form-6.pdf

2925-mas-1997 petition.pdf

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Patent Number

200585

Indian Patent Application Number

2925/MAS/1997

PG Journal Number

30/2009

Publication Date

24-Jul-2009

Grant Date

Date of Filing

17-Dec-1997

Name of Patentee

SHIMANO INC

Applicant Address

77 OIMATSUCHO 3-CHO, SAKAI-SHI, OSAKA

Inventors:

#	Inventor's Name	Inventor's Address
1	SHINICHI TAKIZAWA	2090-4-405 FUKAISHIMIZUCHO, SAKAI-SHI, OSAKA

PCT International Classification Number

B62L01/14

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	08/772,084	1997-12-17	Argentina