DESCRIPTION

[0001] . Field of the invention

[0002] . The present invention relates to a disc assembly for disc brake comprising a brake rotor and a phonic wheel, or excitation ring, capable of generating a signal in a facing or an opposite sensor that is proportional, for example, to the rotation, or signals derived thereto, such as the speed of the phonic wheel.

[0003] . Particularly, the present invention relates to a disc assembly for disc brake comprising a brake rotor of predefined rotational axis having a disc-shaped brake body comprising a brake disc attachment portion to a brake disc support, provided with an attachment portion rest surface suitable to abut against said brake disc support. Said disc ^¬ shaped brake body further comprises a braking portion forming a braking band having opposite first and second braking surfaces that are substantially mutually parallel. Said rest surface of the brake disc attachment portion is, under unworn conditions, substantially coplanar to said first braking surface. Said assembly further comprises an excitation ring or pulse generating ring or phonic wheel having a predefined rotational axis and having a phonic wheel disc-shaped body comprising a surface facing a phonic wheel reading sensor to detect the rotation, or signals derived thereto, of the phonic wheel. Said facing surface comprises a plurality of recesses, or reliefs, evenly distributed circumferentially and suitable to face said sensor.

[0004 ] . As it is known, phonic wheels are arranged connected to the rotating members of the vehicle to detect the member rotation and, in some cases, to detect the absence of a rotation for a non-null speed of the vehicle in order to determine whether an undesired locking of the vehicle wheels has occurred, for example, during the braking action of the vehicle. In this case, the phonic wheel is arranged near to the brake disc so as to detect the accidental locking of the wheel to which the brake disc is connected.

[0005] . Other times, the phonic wheel is arranged in the proximity of a driving wheel of the vehicle to detect an excess of rotation thereof in the acceleration step.

[0006] . Known state of the art

[0007 ] . From the document JP2008224216A of JTEKT CORP., a wheel rolling bearing is known, which comprises a wheel inner member connected to a body side member of the vehicle, and a wheel outer member integrally arranged between a flange, to which a rotor of the brake is secured by a rotor flange portion projecting while tampering towards the rotational axis, and rolling bodies arranged between the wheel inner member and the wheel outer member. Said brake rotor is provided with a pulse generating ring in which a multiplicity of parts to be detected is arranged, which parts face a vehicle speed detector arranged at even intervals in the circumferential direction. Said pulse generating ring is formed in the brake rotor attachment portion proximate to the flange connection, connected to the inner edge of the brake rotor portion intended to exert the braking action.

[0008] . This known solution is strongly affected by the deformation generated by the heat produced during the braking action, which deforms the brake rotor portion intended to exert the braking action by arching the pulse generating ring tampering proximate to the constraint portion having a highly different section relative to the braking band. Furthermore, this known solution is bulky and unsuitable, also due to the deformation of the brake rotor portion, to assembling operations in very narrow settings between a wheel of the vehicle and a brake support and transmission of the motion to the wheel .

[0009]. From the document JP2009286257 of JTEKT CORP., a brake disc is known, which is provided with a braking portion connected to a bearing connecting flange by a cylindrical portion arranged coaxial to the brake disc rotational axis, wherein a high number of grooves is formed radially on a joint folded part of the band portion. These grooves are manufactured so as to be detected by a rotational frequency detecting sensor.

[0010] . This solution, by providing to arrange a multiplicity of parts to be detected in line with the cylindrical disc portion extending axially, is even more affected by the deformation generated by the heat produced during the braking action that deforms the brake rotor portion intended to exert the braking action by arching the bell- shaped portion extending axially and amplifying the deformation or displacement of the pulse generating ring, thus also considerably changing the speed measurements.

[0011] . Furthermore, this known solution turns out to be still more bulky and unsuitable, also due to the deformation of the brake rotor portion relative to the axially extending cylindrical portion, for assembling operations in very narrow settings between a wheel of the vehicle and a support of the brake and transmission of the motion to the wheel.

[0012] . Similar solutions are known also from the documents EP1762743B1 of INT. TRUCK INTELLECTUAL PROP. CO., US7274188B2 of HONDA MOTOR CO. LTD, JP4256860 of YAMAHA MOTOR CO. LTD, EP1088751 of HONDA MOTOR CO. LTD, JP6249273 of AISIN TAKAOKA LTD, where the phonic wheel is laterally associated to the disc, allowing not to be affected by the deformation caused by the thermal increase of the brake disc, but involving an undesired increase in the overall dimensions of the system, especially in the axial direction to the disc. [0013] . Therefore, all these known solutions turn out to be very difficult to be used, since they are bulky, or, when they are compact, they turn out to be strongly affected by the deformation caused by the temperature increase of the brake disc, compromising the desired measurement, for example, of the vehicle wheel speed. On the contrary, the solutions providing for a phonic wheel unconstrained to the disc brake disc turn out to be bulky and subjected to the risk of building-up debris between phonic wheel and brake disc, thus compromising the desired measurement, for example, of the vehicle wheel speed.

[0014] . Solution

[0015] . Therefore, it is the object of the present invention to devise a disc assembly for disc brake that allows reducing the overall dimensions and allows housing it between the support and the wheel rim also in motor-scooters or scooters, while allowing moving the disc brake caliper body nearer to the support without interfering with the phonic wheel.

[0016] . Such a problem is solved by a disc assembly for disc brake as defined in the appended claim 1, as well as a second assembly according to claim 12.

[0017] . In accordance with a general embodiment of the invention, a disc assembly for disc brake is provided, comprising :

[0018] . - a brake rotor having a predefined rotational axis; said brake rotor having a disc-shaped brake body; said disc ^¬ shaped brake body comprising a brake disc attachment portion to a brake disc support having an attachment portion rest surface suitable to abut against said brake disc support; said brake disc attachment portion comprises securing means receiving seats suitable to receive securing means of the brake rotor to a brake disc support thereof; said disc-shaped brake body comprising a braking portion forming a braking band having opposite first and second braking surfaces; said first and second braking surfaces being substantially mutually parallel and defining therebetween, under unworn conditions, a braking band thickness; wherein said rest surface of the brake disc attachment portion being, under unworn conditions, substantially coplanar to said first braking surface;

[0019] . - an excitation ring, or pulse generating ring or phonic wheel, having a predefined rotational axis; said phonic wheel having a phonic wheel disc-shaped body comprising a facing surface; said facing surface being suitable to face a sensor; said facing surface comprises a plurality of recesses or reliefs evenly distributed circumferentially and suitable to face said sensor;

[0020] . - a phonic wheel reading sensor to detect the rotation, or derived signals, of the phonic wheel;

[0021] . - securing means of the brake rotor to the brake disc support thereof [0022] . wherein

[0023] . - said disc-shaped brake body and said phonic wheel disc-shaped body are in a single piece;

[0024] . - said securing means receiving seats comprise embedding widenings suitable to receive by embedding portions of the securing means so that they do not project relative to the brake disc attachment portion, and wherein said embedding widenings are arranged on the same side of the surface facing the sensor of the phonic wheel disc-shaped body, so that said securing means are inserted in said receiving seats on the same side of the phonic wheel reading sensor.

[0025] . In accordance with a further embodiment, a disc assembly for disc brake comprising:

[0026] . - a brake rotor having a predefined rotational axis; said brake rotor having a disc-shaped brake body; said disc ^¬ shaped brake body comprising a brake disc attachment portion to a brake disc support having an attachment portion rest surface suitable to abut against said brake disc support; said disc-shaped brake body comprising a braking portion forming a braking band having opposite first and second braking surfaces; said first and second braking surfaces being substantially mutually parallel;

[0027] . - an excitation ring or pulse generating ring or phonic wheel having a predefined rotational axis; said phonic wheel having a phonic wheel disc-shaped body comprising a facing surface; said facing surface being suitable to face a phonic wheel reading sensor to detect the rotation, or derived signals, of the phonic wheel; said facing surface comprises a plurality of recesses or reliefs evenly distributed circumferentially and suitable to face said sensor.

[0028] . Advantageously, said disc-shaped brake body and said phonic wheel disc-shaped body are in a single piece, said rest surface of the brake disc attachment portion is, under unworn conditions, substantially coplanar to said first braking surface and said surface facing the sensor of the phonic wheel disc-shaped body is substantially coplanar to one of the braking surfaces of the braking band.

[0029] . By virtue of the fact that the assembly provides for, inter alia, that the disc-shaped brake body and the phonic wheel disc-shaped body are in a single piece, as well as the rest surface of the brake disc attachment portion substantially coplanar to said first braking surface and said surface facing the sensor of the phonic wheel disc-shaped body coplanar to one of the braking surfaces of the braking band, it is possible to avoid that a deformation of the braking band of the brake disc makes the measurement by the sensor of the arrangement of the plurality of recesses or reliefs inaccurate and, at the same time, to ensure reduced dimensions of the assembly, which allow maintaining large dimensions of the caliper body, hence an approaching thereof to the brake disc support. At the same time, it is also possible to avoid that spaces are formed between the phonic wheel and the brake disc, avoiding that clefts are formed where dirt or debris may build-up, which could compromise the desired measurement by the sensor of the recesses and reliefs of the phonic wheel.

[0030] . By virtue of what has been stated above, it is possible to arrange the sensor on a side of the disc brake disc, thereby concurring to reduce even more the overall assembly dimensions.

[0031] . Particularly, by virtue of what has been stated above, it is possible to avoid the use of a separate phonic wheel, allowing using a caliper body having larger dimensions compared to that usable with a separate phonic wheel that is provided with disc or support securing means, thus allowing possibly using a disc brake disc having a maximum diameter that is lesser, while maintaining an equal braking action by virtue of an unaltered braking surface, while allowing lesser overall dimensions of the brake disc, phonic wheel, sensor and caliper body assembly.

[0032] . By virtue of what has been stated above, this solution turns out to be not affected by the deformation generated by the heat produced during the braking action that, particularly, since it does not find disc portions that extend axially, it is not able to deform the brake rotor portion intended to exert the braking action, and it avoids arching the phonic wheel, thus avoiding a degradation of the measurements carried out by the opposite sensor.

[0033] . Figures

[0034] . Further characteristics and advantages of the assemblies according to the invention will be apparent from the description set forth below of preferred implementation examples thereof, given by way of illustrative, non-limiting example, with reference to the appended Figures, in which:

[0035] . - Fig. 1 represents in axonometric view a disc assembly for disc brake comprising a brake rotor and a phonic wheel ;

[0036] . - Fig. 2a represents a front view of the assembly of Fig. 1;

[0037] . - Fig. 2b represents a detail of a cross-section according to the line III-III of Fig. 2 of the assembly of Fig. 1;

[0038]. - Fig. 3 illustrates in a support side perspective view a detail of a two-wheeled vehicle in which an assembly of disc brake disc is mounted;

[0039] . - Fig. 4 and Fig. 5 represent two cross-sections at the rotational axis A-A of the detail of the vehicle of Fig. 3:

[0040] . - Fig. 6 represents in front view a disc assembly for disc brake comprising a brake rotor and a phonic wheel according to a further embodiment. [0041] . Description of some preferred implementation examples

[0042] . With reference to the above-mentioned Figures, and in accordance with a general embodiment, a disc assembly for disc brake comprises a brake rotor, said brake rotor has a predefined rotational axis A-A.

[0043] . Said brake rotor comprises a disc-shaped brake body 3 having a brake disc attachment portion 4 suitable to the connection to a brake disc support 5. The brake disc attachment portion 4 comprises an attachment portion rest surface 6 suitable to abut against said brake disc support 5.

[0044] . Said disc-shaped brake body 3 further comprises a braking portion forming a braking band 7, having opposite braking surfaces, a first and second braking surfaces 8, 9.

[0045] . Said first and second braking surfaces 8, 9 are arranged substantially mutually parallel.

[0046] . Said disc assembly for disc brake further comprises an excitation ring, also referred to as a pulse generating ring or, more generally, phonic wheel 11. Said phonic wheel 11 has a predefined rotational axis A-A, which, in accordance with an embodiment, coincides with said rotational axis of the brake rotor 2.

[0047] . Said phonic wheel 11 has a phonic wheel disc-shaped body 12 comprising a facing surface 13. Said facing surface 13 is a surface suitable to face a sensor capable of reading the phonic wheel 14, for example, to detect the rotation, or derived signals, such as the rotational speed, of the phonic wheel 11 and the members of the vehicle connected thereto, such as, for example, of a disc brake disc and the vehicle wheel.

[0048] . Said facing surface 13 comprises a plurality of recesses or reliefs 29. Said plurality is evenly and circumferentially distributed and it is suitable to face said sensor 14.

[0049]. With particular advantage, said disc-shaped brake body 3 and said phonic wheel disc-shaped body 12 are in a single piece. For example, but not necessarily, said disc ^¬ shaped brake body 3 and said phonic wheel disc-shaped body 12 are obtained by cutting or by machining of a planar plate, but they may also be obtained by moulding or casting.

[0050] . Advantageously, said rest surface 6 of the brake disc attachment portion 4 is, under unworn conditions of the braking band, substantially coplanar to said first braking surface 8.

[0051] . With further advantage, said surface 13 facing the sensor of the phonic wheel disc-shaped body 12 is substantially coplanar to one of the braking surfaces 9 of the braking band 7.

[0052] . In accordance with an embodiment, said phonic wheel disc-shaped body 12 comprises a second phonic wheel surface 15 opposite said surface 13 facing the sensor. In accordance with an embodiment, said facing surface 13 and said second phonic wheel surface 15 are substantially mutually parallel.

[0053] . In accordance with an embodiment, said surface 13 facing the sensor of the phonic wheel disc-shaped body 12 is substantially coplanar to said second braking surface 9 of the braking band 7.

[0054] . In accordance with an embodiment, said brake disc attachment portion 4 comprises securing means receiving seats 16 suitable to receive securing means 17 of the brake rotor 2 to a brake disc support 5 thereof. In accordance with an embodiment, said securing means receiving seats 16 comprise at least one embedding widening or undercut 18 suitable to receive by embedding portions of the securing means 17, for example, a screw head, so that they do not project in a direction parallel to the axis A-A relative to the brake disc attachment portion 4.

[0055] . In accordance with an embodiment, said at least one embedding undercut 18 is arranged on the same side of the surface 13 facing the sensor of the phonic wheel disc-shaped body 12. By virtue of this provision, this brake rotor and phonic wheel assembly, as well as the sensor, the caliper body 31 of the braking system, the wheel of the vehicle 33, are all mounted on the same side of the support and the transmission of the vehicle itself. [0056] . In accordance with an embodiment, said attachment portion rest surface 6 is orthogonal to said rotational axis A-A.

[0057 ] . In accordance with an embodiment, said first and second braking surfaces 8, 9 are substantially mutually parallel and define therebetween, under unworn braking band conditions, a predefined braking band thickness 10. In accordance with an embodiment, said phonic wheel disc-shaped body 12 comprises a second phonic wheel surface 15 opposite said sensor facing surface 13. Said facing surface 13 and said second phonic wheel surface 15 are substantially mutually parallel and mutually define a predefined phonic wheel thickness 28.

[0058] . In accordance with an embodiment, said braking band thickness 10 is substantially equal to said phonic wheel thickness 28.

[0059] . In accordance with an embodiment, said plurality of recesses or reliefs 29, for example, but not necessarily, holes, of said facing surface 13 of the phonic wheel 11 have an extension having an axis F-F that is substantially parallel to the brake rotor 2 axis A-A or the phonic wheel 11 axis A-A. In this manner, it is possible to arrange the sensor 14 laterally to the phonic wheel 11 and concur to decreasing the overall dimensions of the assembly cooperating with the sensor. [0060] . In accordance with an embodiment, said recesses or reliefs 29, for example, but not necessarily, holes, extend with an axis or along an axis F-F parallel to the extension axis or axis T-T along which braking band holes 23 extend, which are provided for in the portion of the braking band affected by the braking surfaces 8, 9, i.e., the surfaces that are brushed by disc brake pads 30 affected by thrust means 32 housed in a disc brake caliper body 31 of a braking system of the vehicle.

[0061] . In accordance with an embodiment, said braking band holes 23 are suitable to cool the braking band 7 and grind the disc brake pads 30 housed in a disc brake caliper body 31 and biased by thrust means 32 to abut against the braking surfaces 8, 9 of the braking band 7 to exert a braking action on a vehicle on which said assembly 1 is associated.

[0062] . In accordance with an embodiment, said recesses or reliefs 29, for example, holes, of the phonic wheel 11 have dimensions transversal to the extension F-F thereof, for example, the diameter thereof, having an extent substantially equal to the braking band thickness 10.

[0063] . In accordance with an embodiment, said recesses or reliefs 29, for example, holes, of the phonic wheel 11 have dimensions transversal to the extension F-F thereof, for example the diameter thereof, having an extent substantially equal to the phonic wheel thickness 28. [0064 ] . In accordance with an embodiment, said recesses or reliefs 29, for example, holes, of the phonic wheel 11 form, in the circumferential direction with the remaining portion of phonic wheel disc-shaped body 12, a ratio of substantially 50%. For example, said recesses or reliefs are holes 29. By measuring in the circumferential direction and passing through the center of said holes 29, in accordance with an embodiment, a ratio between the spaces of the holes and the solid part of the phonic wheel body is detected, determining a ratio which is substantially of 50%.

[0065] . In accordance with an embodiment, said recesses or reliefs are through holes 29.

[0066] . In accordance with an embodiment, said recesses or reliefs 29 have a section transversally to the extension F-F thereof that is substantially oval-shaped, for example, enlarged in the direction radial to the phonic wheel rotational axis A-A.

[0067 ] . In accordance with an embodiment, said recesses or reliefs 29 are arranged at such a distance from the braking band 7 as to avoid disturbances in the detection by the sensor 14. For example said recesses or reliefs 29 are spaced apart from each other by a predefined phonic wheel distance "d" and said recesses or reliefs 29 are spaced from the braking band 7, particularly its braking surface 8, 9, substantially by a distance "r" equal to said phonic wheel distance "d". [0068] . In accordance with an embodiment, a second disc assembly for disc brake 19 comprises a brake rotor 2 having a predefined rotational axis A-A.

[0069] . Said brake rotor 2 comprises a disc-shaped brake body 3. Said disc-shaped brake body 3 comprises a brake disc attachment portion 4 to a brake disc support 5 having an attachment portion rest surface 6 suitable to abut against said brake disc support 5.

[0070] . Said brake disc attachment portion 4 comprises securing means receiving seats 16 suitable to receive securing means 17 of the brake rotor 2 to the brake disc support 5 thereof .

[0071] . Said disc-shaped brake body 3 comprises a braking portion forming a braking band 7 having opposite first and second braking surfaces 8, 9. Said first and second braking surfaces 8, 9 are substantially mutually parallel and defining therebetween, under unworn conditions, a braking band thickness 10.

[0072] . Advantageously, said rest surface 6 of the brake disc attachment portion 4 is, under unworn conditions, substantially coplanar to said first braking surface 8.

[0073] . Said second disc assembly for disc brake 19 further comprises an excitation ring or pulse generating ring or phonic wheel 11 having a predefined rotational axis A-A.

[0074] . Said phonic wheel 11 comprises a phonic wheel disc- shaped body 12 comprising a facing surface 13. Said facing surface 13 is suitable to face a sensor 14.

[0075] . Said facing surface 13 comprises a plurality of recesses or reliefs evenly and circumferentially distributed and suitable to face said sensor 14.

[0076] . Said second disc assembly for disc brake 19 further comprises a phonic wheel reading sensor 14 to detect the rotation, or derived signals, of the phonic wheel 11.

[0077 ] . Said second disc assembly for disc brake 19 further comprises securing means 17 of the brake rotor 2 to the brake disc support 5 thereof.

[0078] . Advantageously, in said second disc assembly for disc brake 19, said disc-shaped brake body 3 and said phonic wheel disc-shaped body 12 are in a single piece.

[0079] . Advantageously, in said second disc assembly for disc brake 19, said securing means receiving seats 16 comprise embedding widenings or recesses 18 suitable to receive by embedding portions of the securing means 17, by way of non- limiting example, screw heads, so that these do not project relative to the brake disc attachment portion 4. Said embedding widenings 18 are advantageously arranged on the same side of the surface 13 facing the sensor of the phonic wheel disc-shaped body 12, so that said securing means 17 are inserted in said receiving seats 16 on the same side of the phonic wheel reading sensor 14. [0080] . In accordance with an embodiment, a third disc assembly for disc brake 20 comprises a brake rotor 2 having a predefined rotational axis A-A. Said brake rotor 2 comprises a disc-shaped brake body 3 having a brake disc attachment portion 4 to a brake disc support 5 having an attachment portion rest surface 6 suitable to abut against said brake disc support 5.

[0081] . Advantageously, said brake disc attachment portion 4 comprises securing means receiving seats 16 suitable to receive securing means 17 of the brake rotor 2 to the brake disc support 5 thereof.

[0082] . Said disc-shaped brake body 3 further comprises a braking portion forming a braking band 7 having opposite first and second braking surfaces 8, 9. Said first and second braking surfaces 8, 9 are substantially mutually parallel and defining therebetween, under unworn conditions, a braking band thickness 10.

[0083] . Advantageously, said rest surface 6 of the brake disc attachment portion 4 is, under unworn conditions, substantially coplanar to said first braking surface 8.

[0084] . Said third disc assembly for disc brake 20 further comprises an excitation ring or pulse generating ring or phonic wheel 11 having a predefined rotational axis A-A. Said phonic wheel 11 has a phonic wheel disc-shaped body 12 comprising a facing surface 13. Said facing surface 13 is advantageously suitable to face a sensor 14 and comprises a plurality of recesses or reliefs 22 evenly and distributed circumferentially so as to be suitable to face said sensor 14.

[0085] . Advantageously, said disc-shaped brake body 3 is obtained from a planar plate 21 forming in a single piece the phonic wheel disc-shaped body 12 avoiding bendings or curvatures of the planar plate 21 outside the plane thereof.

[0086] . Advantageously, said forming takes place so that at least the surface 13 facing the sensor of the phonic wheel disc-shaped body 12 is coplanar to at least one of the braking surfaces 9 of the braking band 7.

[0087] . In accordance with an embodiment, said forming is a cutting operation of the brake disc disc-shaped body 3 and at the same time of the phonic wheel disc-shaped body 12 from a single planar plate.

[0088] . In accordance with an embodiment, by said cutting operation of the brake disc 3 and phonic wheel 12 disc-shaped bodies also band holes 23 in the braking band 7 and phonic wheel recesses 22, by way of non-limiting example, phonic wheel holes, are obtained.

[0089] . In accordance with an embodiment, by said cutting operation of the brake disc 3 and phonic wheel 12 disc-shaped bodies also securing means receiving seats 16 are obtained.

[0090] . In accordance with an embodiment, said phonic wheel recesses 22 are through holes obtained by cutting or, alternatively, by milling or piercing.

[0091] . In accordance with an embodiment, the cutting of the brake disc 3 and phonic wheel 12 disc-shaped bodies, of the band holes 23, and of the phonic wheel recesses 22 takes place in a single positioning so as to reduce the parallelism tolerances between brake disc-shaped body edge surfaces 24, phonic wheel disc-shaped body edge surfaces 25, phonic wheel recesses edge surfaces 26 and braking band holes edge surfaces 27.

[0092] . Of course, those skilled in the art, with the aim of meeting contingent, specific needs, will be able to make a number of modifications and variations to the assembly according to the invention, all anyhow falling within the protection scope of the invention, as defined by the following claims.

[0093] . In accordance with an embodiment, the disc assembly for disc brake 1 comprises a brake rotor 2 having a predefined rotational axis A-A. Said brake rotor 2 has a disc-shaped brake body 3. Said disc-shaped brake body 3 comprises a brake disc attachment portion 4 to a brake disc support 5 forming a continuous circular ring and defining an attachment portion rest surface 6 suitable to abut against said brake disc support 5.

[0094] . In accordance with an embodiment, said brake disc attachment portion 4 to a brake disc support 5 forming a continuous circular ring has a thickness that substantially equal to that of the braking band 7 and, at the securing means receiving seats 16, localized lowerings are provided for, which are suitable to receive the head of the securing means, reducing the axial overall dimensions of the securing means, while avoiding that the brake disc attachment portion 4 is asymmetrical to a central plane on which the braking band 7 lies, stabilizing more on the thermal standpoint the brake disc attachment portion 4 and the integral phonic wheel 11, even more decreasing any disturbance by the heat produced by the braking action, which heats the braking band 7, the phonic wheel 11 and the brake disc attachment portion 4 on the measurement by the sensor 14.

[0095] . In accordance with an embodiment, said recesses or reliefs of phonic wheel 22 are blind or through holes and having a radially elongated oval shape or a circular shape.

[0096] . In accordance with an embodiment, said phonic wheel 11 is arranged radially, with respect to the rotational axis, between said brake disc attachment portion 4 and said braking portion forming the braking band 7. This solution allows moving the sensor 14 away from the brake disc support 5 and making even compacter of with reduced overall the brake disc assembly .

[0097] . In accordance with an embodiment, said phonic wheel 11 is arranged radially, with respect to the rotational axis, between said brake disc attachment portion 4 and said braking portion forming the braking band 7 and at the same time said recesses or reliefs 29 are arranged at such a distance from the braking band 7 as to avoid disturbances in the detection by the sensor 14, for example said recesses or reliefs 29 are spaced apart from each other by a predefined phonic wheel distance "d" and said recesses or reliefs 29 are spaced from the braking band 7 substantially by a distance "r" equal to said phonic wheel distance "d" . This embodiment turns out to be still compacter or less bulky, while keeping high performance for the sensor.

[0098] . In accordance with an embodiment, a vehicle, particularly, but not necessarily, a motor vehicle, comprises a wheel 33 operatively connected to a transmission capable of applying a torque to said wheel 33. Advantageously, a disc assembly for disc brake 19 is connected to said wheel as in accordance with any of the embodiments described above.

[0099] . In accordance with an embodiment, a vehicle, particularly, but not necessarily, a motor vehicle, comprises a wheel 33 operatively connected to a transmission capable of applying a torque to said wheel 33. Advantageously, a disc assembly for disc brake 19 is connected to said wheel, having said phonic wheel 11 arranged radially, with respect to the rotational axis, between said brake disc attachment portion 4 and said braking portion forming the braking band 7. This solution allows moving the sensor 14 away from the brake disc support 5 and the transmission, and making the brake disc assembly even compacter or with reduced overall dimensions. This embodiment allows having a brake disc assembly with a seat connecting the brake disc to the support thereof that is particularly wide or large, so as to allow the connection of the disc even to large supports suitable to operative connections with power transmissions.

[00100] . In accordance with an embodiment, a vehicle, particularly, but not necessarily, a motor vehicle, comprises a wheel 33 operatively connected to a transmission capable of applying a torque to said wheel 33. Advantageously, a disc assembly for disc brake 19 is connected to said wheel, having said phonic wheel 11 arranged radially, with respect to the rotational axis, between said brake disc attachment portion 4 and said braking portion forming the braking band 7 and at the same time having said recesses or reliefs 29 arranged at such a distance from the braking band 7 as to avoid disturbances in the detection by the sensor 14, for example said recesses or reliefs 29 are spaced apart from each other by a predefined phonic wheel distance "d" and said recesses or reliefs 29 are spaced from the braking band 7 substantially by a distance "r" equal to said phonic wheel distance "d" . this embodiment turns out to be still compacter or less bulky, even when it is connected to the vehicle driving wheel, especially on a motor vehicle, while maintaining high performance for the sensor.

[00101] . In accordance with an embodiment, this previous embodiment comprises said recesses or reliefs 29 obtained as through holes, turning out to be a disc assembly for disc brake 19 even simpler to be manufactured, besides having compact dimensions.

REFERENCES

1 disc assembly for disc brake

2 brake rotor

3 disc-shaped brake body

4 brake disc attachment portion

5 brake disc support

6 rest surface

7 braking band

8 first braking surface

9 second braking surface

10 braking band thickness

11 phonic wheel

12 phonic wheel disc-shaped body

13

surface facing the phonic wheel body sensor

14 sensor

15 second phonic wheel surface

16 securing means receiving seats

17 securing means

18 embedding recess

19 second brake disc and phonic wheel assembly, sensor

and support securing means

20 third brake disc and phonic wheel assembly

21 planar plate from which brake rotor and phonic wheel

are cut

22 phonic wheel recesses or reliefs

23 braking band holes

24 brake body edge surfaces

25 phonic wheel edge surfaces

26 phonic wheel recesses edge surfaces

27 braking band holes edge surfaces phonic wheel thickness phonic wheel recesses or holes disc brake pads

disc brake caliper body thrust means

vehicle wheel