FORM 2
THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENTS RULES, 2003
COMPLETE SPECIFICATION
(See section 10 and rule 13)
1. TITLE OF THE INVENTION
BRAKE CALIPER BODY AND BRAKE CALIPER
2. APPLICANT(S)
Name Nationality Address
BREMBO S.P.A. ITALIAN Via Brembo, 25 I-24035 Curno,
BERGAMO, Italy
3. PREAMBLE TO THE DESCRIPTION
The following specification particularly describes the invention and the manner in
which it is to be performed.
2
DESCRIPTION
[0001]. Field of the invention
[0002]. The present invention relates to a caliper body, a brake caliper, a
caliper body and caliper support assembly, as well as to a method of assembling a5
pad support pin in a caliper body.
[0003]. Background art
[0004]. In a disc brake of known type, the brake caliper is generally arranged
astride a brake disc mounted on the hub of a vehicle wheel. The brake caliper usually
comprises a caliper body which accommodates the brake pads and actuators for10
pushing the pads against the disc to achieve the braking action on the vehicle.
[0005]. In some known disc brake types, the pads are supported by support
pins accommodated in appropriate caliper body seats made in the caliper body, in
which each support pin passes through corresponding holes made in the support
plate for the friction material of each brake pad. Such support pins have a15
longitudinal extension axis, a pin head, and a pin tip arranged at the opposite ends of
the extension axis.
[0006]. The support pins are coupled with clearance with respect to the
respective caliper body seat, and therefore elastic elements are used to axially
constrain the pins to the caliper body seats.20
[0007]. In some cases, such elastic elements are coaxially pre-assembled to
the pin body in an annular pin seat. The annular pin seat, in which the elastic element
is accommodated, includes a usually cylindrical bottom wall with axial extension,
axially delimited by at least a first seat wall substantially transverse to the bottom
wall minus flared machining connectors.25
[0008]. Such elastic elements are usually expanding elastic elements, and in a
3
resting condition, have a larger radial dimension than the radial dimension of the first
seat wall. When the support pin provided with the expanding elastic element is
assembled to the caliper body, the expanding elastic element is thus radially
compressed by the walls of the caliper body seat in the direction of the support pin,5
and the expanding elastic element is constrained by friction to the caliper body seat.
As a result, the expanding elastic element provides an axial constraint aimed at
preventing the pin from coming out of its seat.
[0009]. The expanding elastic element is inserted by sliding into the caliper
body seat, e.g., under a thrust action. Once the expanding elastic element is10
positioned inside the caliper body seat, and at least one pin abutment portion of the
support pin axially abuts against the caliper body defining the maximum insertion
position of the pin in the caliper body, the elastic element forms an axial constraint
with respect to the pin, thus preventing the movements of the pin in the extraction
direction until the action in the axial direction applied by the first seat wall of the pin15
seat exceeds the static friction force between the elastic element and the caliper
body, allowing the elastic element to slide with respect to the caliper body and
therefore allowing the pin to come out of its seat.
[0010]. For example, document EP1425520 to the Applicant shows a brake
pad support pin coupled to a barrel-shaped expanding elastic element.20
[0011]. The shape of the support pins and the respective expanding elastic
elements is such as to meet the need to ensure an easy assembly of a brake caliper
assembly, as well as a simple replacement of the brake pads, e.g., during
maintenance, while meeting the need to ensure an axially constrained coupling
between the support pins and the caliper body when the vehicle is used, while25
withstanding the operating biases.
4
[0012]. According to a further aspect, in order to ensure the correct axial
positioning of the support pin and elastic element assembly, the pad support pins of
known type are machined to have a pin abutment portion which, when the support
pin has reached its maximum axial insertion position, axially abuts against the5
caliper body, and the expanding elastic element, forming a radial seal with the
caliper body, prevents the unwanted release of the support pin from the caliper body.
[0013]. The pad support pins are machined in different manners to obtain
different pin abutment portions according to the type of caliper body on which they
must be mounted, e.g., on monobloc caliper bodies or on caliper bodies having two10
caliper half-bodies assembled together. Consistently, the caliper body seats in which
the pin tip and the pin head are accommodated, respectively, have different shapes
according to the type of caliper body.
[0014]. Some types of pad support pins have, at the pin tip end, a pin
abutment portion, i.e., a shoulder, having a larger radial dimension than a pin tip end15
portion with small diameter, so that it abuts against the caliper body when the pin is
inserted into the caliper body, reaching its maximum axial insertion position.
[0015]. In other types of pad support pins, the pin portion in which the
annular seat is obtained, in which the elastic element is arranged, has a larger radial
dimension than the rest of the pin and thus has, in the direction of the pin tip, a pin20
fitting shoulder shaped to abut against a caliper body seat shoulder so that it abuts
against the caliper body when the pin is inserted into the caliper body, reaching its
maximum axial insertion position. In such a case, the caliper body seat
accommodating the pin portion in which the annular seat is obtained usually
comprises a first cylindrical portion and a second cylindrical portion having different25
diameters, which are connected by the shoulder of the caliper body seat.
5
[0016]. Although such pad support pins and the corresponding elastic
elements meet the needs of obtaining simple assembly and easy maintenance, it has
been found that the mechanical operations for defining the pin abutment portions
make the manufacturing of the support pins particularly complex and have a5
significant impact on the final cost and processing time.
[0017]. Therefore, the need is strongly felt in the field to make pad support
pins which are easy to manufacture and which allow reducing the production costs
per piece, while allowing the standardization of the geometry of the pins for different
types of calipers, thus further facilitating the processes of assembling such10
assemblies in respective caliper bodies.
[0018]. Therefore, the problem underlying the present invention is to devise a
caliper body, pin and elastic element assembly, as well as a brake caliper, a pin
assembly, a caliper body, and a method for assembling a pad support pin in a caliper
body of a vehicle, which have structural and functional features to meet the aforesaid15
needs while solving the drawbacks mentioned with reference to the prior art and
meet the aforesaid needs.
[0019]. Solution
[0020]. It is the object of the present invention to provide a caliper body, as
well as a brake caliper, as well as a caliper and caliper support assembly, as well as a20
method of assembling a pad support pin in a caliper body of a vehicle, which are
easy to manufacture and obtain while allowing easy maintenance and assembly, as
well as the highest certainty for the pin not to accidentally come out of its seat when
using the brake caliper.
[0021]. This and other objects and advantages are achieved by a caliper body25
according to claim 1, as well as a brake caliper according to claim 9, as well as an
6
assembly according to claim 8, as well as a caliper body according to claim 20, as
well as a method of mounting a pad support pin in a caliper body of a vehicle
according to claim 21.
[0022]. Some advantageous embodiments are the subject of the dependent5
claims.
[0023]. The analysis of this solution shows how the suggested solution
allows simplifying the machining of the support pins while maintaining an easy,
correct positioning of the support pin inside the caliper body.
[0024]. Moreover, the suggested solution reduces manufacturing costs by10
reducing the pin portions which must be machined after drawing.
[0025]. Furthermore, the suggested solutions allow standardizing the
different types of pins and the different types of pin seats made in the caliper body,
further reducing manufacturing costs and simplifying the assembly operations.
[0026]. Moreover, the suggested solutions allow ensuring the highest15
certainty for the pin not to be accidentally removed from its seat during use.
[0027]. Drawings
[0028]. Further features and advantages of the caliper body, brake caliper,
assembly and assembly method are given by way of a non-limiting example, with
reference to the accompanying drawings, in which:20
[0029]. - Figure 1 shows an axonometric view of a brake caliper mounted on
a caliper support;
[0030]. - Figure 2 shows an axonometric view, in separate parts, of the
assembly in Figure 1;
[0031]. - Figure 3 shows an axonometric view, in separate parts, of the25
assembly in Figure 1, according to a different point of view;
7
[0032]. - Figure 4 shows an axonometric view of a brake caliper according to
the invention;
[0033]. - Figure 5 shows an axonometric view of a caliper body according to
the invention;5
[0034]. - Figure 6 shows a front view of the caliper body in Figure 5;
[0035]. - Figure 7 shows an axonometric view sectioned by a plane directed
according to the radial and axial direction passing through the pin seat, of the brake
caliper in Figure 4 in which a connecting screw is mounted;
[0036]. - Figure 8 shows an axonometric view, sectioned by a plane directed10
according to the radial and axial direction passing through the pin seat, of the brake
caliper in Figure 4 in which the connecting screw is removed from its seat and the
pin is removed from its seat;
[0037]. - Figure 9 shows an axonometric view, sectioned by a plane passing
through the circumferential and radial direction, of the caliper in Figure 4 in which a15
connecting screw is inserted;
[0038]. Figure 10 shows an axonometric view, sectioned by a plane passing
through the circumferential and radial direction, of the caliper in Figure 4 in which a
connecting screw is inserted, according to a different point of view;
[0039]. - Figure 11 shows an axonometric view of the assembly of the brake20
pads, pad spring, brake-pad sliding and support pin and connecting screw depicted in
operating position;
[0040]. - Figures 12 and 13 show an axonometric view of the caliper in
Figure 4, sectioned according to a plane passing through the radial and axial
direction in which two pin disassembly steps are depicted, first removing the25
connecting screw and then removing the pin;
8
[0041]. - Figures 14, 15 and 16 show an axonometric view of a portion of the
caliper in Figure 4, in three steps of mounting a pin, first including the insertion of
the pin into its seat and then the insertion of the connecting screw into its seat so as
to obstruct the removal path of the pin.5
[0042]. Description of some preferred embodiments
[0043]. According to a general embodiment, a caliper body 1 of a brake
caliper 2 is adapted to house thrust means 3 for urging opposing brake pads 4 against
opposite braking surfaces 24, 25 of a brake disc 26 on which said caliper body 1 is
adapted to be arranged astride.10
[0044]. Said brake disc 26 defines an axial direction A-A parallel to or
coincident with a rotation axis X-X of said brake disc 26, a radial direction R-R
orthogonal to said rotation axis X-X, and a circumferential direction C-C which, in
each intersection point between said axial direction A-A and said radial direction R-
R, is orthogonal to both said axial direction A-A and said radial direction R-R.15
[0045]. Said caliper body 1 comprises at least one screw seat 5 to
accommodate a connecting screw 6 for connecting the caliper body 1 to a caliper
support 7.
[0046]. Said screw seat 5 extends along a screw seat direction S-S.
[0047]. Said connecting screw 6 comprises a screw head 8 to support and20
tighten the connecting screw 6 and connect said caliper body 1 to said caliper
support 7.
[0048]. Said at least one screw seat 5 is surrounded by a screw head support
surface 9 adapted to support said screw head 8 and tighten said connecting screw 6.
[0049]. Said screw head support surface 9 defines a first screw head support25
surface extension 12 directed along said screw seat direction S-S.
9
[0050]. Said caliper body 1 comprises at least one pin seat 10 adapted to
accommodate a brake-pad sliding and support pin 11. Said pin 11 is adapted to
support and allow the sliding of opposing brake pads 4. Said pin 11 is extractable to
allow the disassembly and replacement of the brake pads 4 when they are worn, for5
example.
[0051]. Said at least one pin seat 10 extends along a pin seat direction P-P.
[0052]. Said at least one pin seat 10 defines a second pin seat extension 13
directed along said pin seat direction P-P.
[0053]. Said first screw head support surface extension 12 intersects said10
second pin seat extension 13.
[0054]. By virtue of the intersection between the first screw head support
surface extension 12 and the second pin seat extension 13, certainty can be doubled
and it is possible to ensure that the pin 11 does not to come out of its pin seat 10
during the operation of the brake caliper 2. In particular, the invention provides that15
the function of ensuring that the pin 11 does not come out of its seat 10 is performed
by the connecting screw 6 connecting the caliper body 1 to the vehicle.
[0055]. According to an embodiment, the pin seat 10, on the side opposite to
the connecting screw 6, includes a narrowing to allow a widened portion of said pin
11 to abut in its seat and prevent it from coming out of the side of the caliper body20
opposite to said connecting screw 6.
[0056]. According to an embodiment, said at least one pin seat 10 opens
towards and seamlessly faces said first screw head support surface extension 12 so
that when said connecting screw 6 is not accommodated in said at least one screw
seat 5, said at least one pin seat 10 can be freely accessed.25
[0057]. According to an embodiment, said at least one screw seat 5 defines a
10
third screw seat extension 14 directed along said screw seat direction S-S.
[0058]. Said third screw seat extension 14 intersects said second pin seat
extension 13.
[0059]. According to an embodiment, said at least one pin seat 10 is an at5
least partially cylindrical seat.
[0060]. Said at least one screw seat 5 is an at least partially cylindrical seat.
[0061]. According to an embodiment, said screw head support surface 9 is an
annular crown.
[0062]. According to an embodiment, said screw head support surface 9 is10
obtained in a flattened caliper body portion 15 formed in said caliper body 1 and
which forms at least one flattened portion side wall 16, for example resting on a
cylindrical extension, which at least partially surrounds said screw head support
surface 9.
[0063]. According to an embodiment, looking transversely to a15
circumferential C-C and radial R-R plane (see Figure 6), the mouth of said at least
one pin seat 10 is completely visible without obstructions of portions or components
of the caliper body 1. Access to the pin seat 10 is thus free for said pin 11 when the
connecting screw 6 is removed, but is impossible when the connecting screw 6 is in
its screw seat 5, thus blocking the pin 11 in its pin seat 10.20
[0064]. According to an embodiment, said caliper body 1 is a body made in
one piece forming three connection bridges 30, 31, 32 which connect two opposite
elongated elements 35, 36, in each of which two seats 22, 23 for thrust means 3 are
obtained.
[0065]. According to an embodiment, said screw seat direction S-S is a radial25
direction R-R or a direction parallel to a radial direction R-R, preferably the radial
11
direction R-R passing through the centerline of the caliper body 1 or through the
thrust center of one of the brake pads 4.
[0066]. Said pin seat direction P-P is an axial direction A-A or a direction
parallel to an axial direction A-A.5
[0067]. The present invention also relates to a brake caliper 2 comprising a
caliper body 1 according to any one of the embodiments described above. Opposing
brake pads 4 elastically biased by at least one pad spring 17 are accommodated in
said brake caliper 2.
[0068]. Said pads are supported by and slide on at least one brake-pad sliding10
and support pin 11.
[0069]. According to an embodiment, said pad spring 17 elastically biases
said brake-pad sliding and support pin 11 with an elastic action, for example, an
elastic action directed in the radial R-R and/or circumferential C-C direction.
[0070]. According to an embodiment, said brake-pad sliding and support pin15
11 comprises an annular pin seat 18.
[0071]. Said pad spring 17 comprises a spring portion 19, or tab, at least
partially inserted into said annular pin seat 18 so as to counteract excessive
movements of said brake-pad sliding and support pin 11 along the axial direction A-
A.20
[0072]. According to an embodiment, at least one connecting screw 6
connects said caliper body 1 to a caliper support 7.
[0073]. According to an embodiment, said connecting screw 6 is a screw
stud.
[0074]. According to an embodiment, said connecting screw 6 comprises a25
screw head 8.
12
[0075]. Said screw head 8 comprises a screw head support and tightening
surface 21 which rests against said screw head support surface 9 when the screw is
tightened. The screw head 8 thus at least partially intersects said second pin seat
extension 13.5
[0076]. According to an embodiment, said screw head 8 comprises grip
surfaces 22 for maneuvering said connecting screw 6.
[0077]. According to an embodiment, said connecting screw 6 comprises a
screw shank 20 for the connection with said screw seat 5 and with a caliper support
screw seat 23 provided in said caliper support 7.10
[0078]. According to an embodiment, said pad spring 17 is connected to the
caliper body 1 and biases said brake pads resting on said caliper body 1 in a
circumferential direction C-C and away from the brake disc 26 in the axial direction
A-A.
[0079]. According to an embodiment, said brake pads 4 each comprise a15
support plate 27.
[0080]. Said support plate 27 comprises a support arm 28 for supporting said
support plate 27 on the pad surface 29 provided in said caliper body 1.
[0081]. According to an embodiment, said pad surface 29 faces said brake
pads 4 and protrudes from an end bridge 30.20
[0082]. According to an embodiment, said brake pads 4 each comprise a
support plate 27.
[0083]. Said support plate 27 comprises a support fork 33 placed astride said
brake-pad sliding and support pin 11.
[0084]. According to an embodiment, said caliper body 1 comprises plate25
support elements 34 which are directed radially R-R or according to a direction
13
parallel to a radial direction R-R, for example, passing through the centerline or
pressure center of the brake pad 4, adapted to support the support plates 27 and to
react to the braking action.
[0085]. The present invention also relates to a brake caliper assembly5
comprising a brake caliper 2 according to any one of the embodiments described
above, and to a caliper support 7.
[0086]. Said caliper support 7 comprises at least one caliper support screw
seat 23 for accommodating a screw shank 20 of a connecting screw 6 which
connects said caliper body 1 to said caliper support 7.10
[0087]. The present invention also relates to a method of mounting brake
pads 4 in a caliper body 1.
[0088]. This method comprises at least the following steps:
[0089]. - providing a brake caliper 2 as defined in any one of the
embodiments described above;15
[0090]. - with the caliper body 1 disassembled, connecting said pad spring 17
to said caliper body 1;
[0091]. - with the caliper body 1 disassembled, inserting the brake pads 4
into the caliper body 1 so as to engage the support arm 28 thereof to said pad surface
29;20
[0092]. - inserting said brake-pad sliding and support pin 11 into said pin seat
10 by positioning the support forks 33 astride said pin 11 and at least partially
inserting said spring portion 19 into said annular pin seat 18;
[0093]. - inserting said connecting screw 6 into said screw seat 5, thus at least
partially obstructing access to said pin 18 so that the screw head 8 at least partially25
intersects said second pin seat extension 13.
14
LIST OF REFERENCE SIGNS
1 caliper body
2 brake caliper5
3 thrust means
4 brake pad
5 screw seat
6 connecting screw
7 caliper support10
8 screw head
9 screw head support surface
10 pin seat
11 brake-pad sliding and support pin
12 first screw head support surface extension15
13 second pin seat extension
14 third screw seat extension
15 flattened caliper body portion
16 flattened portion side wall
17 pad spring20
18 annular pin seat
19 spring portion or tab
20 screw shank
21 screw head support and tightening surface
22 grip surfaces25
23 caliper support screw seat
24 braking surface
25 braking surface
26 brake disc
27 support plate30
28 support arm
29 pad surface
30 end bridge
31 intermediate bridge
15
32 end bridge
33 support fork
34 plate support element
35 elongated caliper body element5
36 elongated caliper body element
A-A axial direction
X-X rotation axis
R-R radial direction
C-C circumferential direction10
P-P pin seat direction
S-S screw seat direction
16
WE CLAIM:
1. A caliper body (1) of a brake caliper (2) adapted to house thrust means (3) for
urging opposing brake pads (4) against opposite braking surfaces (24, 25) of a brake5
disc (26) on which said caliper body (1) is adapted to be arranged astride;
said brake disc (26) defining an axial direction (A-A) parallel to or coincident with a
rotation axis (X-X) of said brake disc (26), a radial direction (R-R) orthogonal to
said rotation axis (X-X) and a circumferential direction (C-C) which, in each
intersection point between said axial direction (A-A) and said radial direction (R-R),10
is orthogonal to both said axial direction (A-A) and said radial direction (R-R);
wherein
said caliper body (1) comprises at least one screw seat (5) to accommodate a
connecting screw (6) for connecting the caliper body (1) to a caliper support (7); said
screw seat (5) extends along a screw seat direction (S-S); said connecting screw (6)15
comprises a screw head (8) to support and tighten the connecting screw (6) by
connecting said caliper body (1) to said caliper support (7);
said at least one screw seat (5) is surrounded by a screw head support surface (9)
adapted to support said screw head (8) and tighten said connecting screw (6);
said caliper body (1) comprises at least one pin seat (10) adapted to accommodate a20
brake-pad sliding and support pin (11), which pin is adapted to support and allow the
sliding said opposite brake pads (4); said at least one pin seat (10) extends along a
pin seat direction (P-P);
said screw head support surface (9) defines a first screw head support surface
extension (12) directed along said screw seat direction (S-S);25
17
said at least one pin seat (10) defines a second pin seat extension (13) directed along
said pin seat direction (P-P);
characterized in that
said first screw head support surface extension (12) intersects said second pin seat5
extension (13).
2. A caliper body (1) according to claim 1, wherein
said at least one pin seat (10) opens towards and seamlessly faces said first screw
head support surface extension (12) so that, when said connecting screw (6) is not10
accommodated in said at least one screw seat (5), said at least one pin seat (10) can
be freely accessed.
3. A caliper body (1) according to claim 1 or 2, wherein
said at least one screw seat (5) defines a third screw head extension (14) directed15
along said screw seat direction (S-S);
said third screw seat extension (14) intersects said second pin seat extension (13).
4. A caliper body (1) according to any one of the preceding claims, wherein
said at least one pin seat (10) is an at least partially cylindrical seat; and wherein20
said at least one screw seat (5) is an at least partially cylindrical seat; and wherein
said screw head support surface (9) is an annular crown.
5. A caliper body (1) according to any one of the preceding claims, wherein
18
said screw head support surface (9) is obtained in a flattened caliper body portion
(15) formed in said caliper body (1) and which forms at least one flattened portion
side wall (16) which at least partially surrounds said screw head support surface (9).
5
6. A caliper body (1) according to any one of the preceding claims, wherein
looking at said at least one pin seat (10) transversely to a circumferential (C-C) and
radial (R-R) plane, said at least one pin seat (10) is completely visible without
obstructions of portions or components of the caliper body (1).
10
7. A caliper body (1) according to any one of the preceding claims, wherein
said caliper body (1) is a body made in one piece forming three connection bridges
(30, 31, 32) which connect two opposite elongated elements (35, 36) in each of
which two seats (22, 23) for thrust means (3) are obtained.
15
8. A caliper body (1) according to any one of the preceding claims, wherein
said screw seat direction (S-S) is a radial direction (R-R) or a direction parallel to a
radial direction (R-R), preferably the radial direction (R-R) passing through the
centerline of the caliper body (1) or through the thrust center of one of the brake pads
(4); and wherein20
said pin seat direction (P-P) is an axial direction (A-A) or a direction parallel to an
axial direction (A-A).
9. A brake caliper (2) comprising a caliper body (1) according to any one of the
19
preceding claims, wherein opposing brake pads (4) are accommodated, elastically
biased by at least one pad spring (17), wherein said pads are supported by and slide
on at least one brake-pad sliding and support pin (11).
5
10. A brake caliper (2) according to claim 9, wherein
said pad spring (17) elastically biases said brake-pad sliding and support pin (11)
with an elastic action, preferably an elastic action directed in the radial (R-R) and/or
circumferential (C-C) direction.
10
11. A brake caliper (2) according to claim 9 or 10, wherein
said brake-pad sliding and support pin (11) comprises an annular pin seat (18); and
wherein
said pad spring (17) comprises a spring portion (19) at least partially inserted into
said annular pin seat (18) so as to counteract excessive movements of said brake-pad15
sliding and support pin (11) along the axial direction (A-A).
12. A brake caliper (2) according to any one of claims 9 to 11, wherein
at least one connecting screw (6) connects said caliper body (1) to a caliper support
(7).20
13. A brake caliper (2) according to claim 12, wherein
said connecting screw (6) is a screw stud.
20
14. A brake caliper (2) according to any one of claims 12 to 13, wherein
said connecting screw (6) comprises a screw head (8); wherein
said screw head (8) comprises a screw head support and tightening surface (21)
which, when the screw is tightened, rests against said screw head support surface (9);5
wherein the screw head (8) at least partially intersects said second pin seat extension
(13); and/or wherein
said screw head (8) comprises grip surfaces (22) for maneuvering said connecting
screw (6).
10
15. A brake caliper (2) according to any one of claims 12 to 14, wherein
said connecting screw (6) comprises a screw shank (20) for the connection with said
screw seat (5) and with a caliper support screw seat (23) provided in said caliper
support (7).
15
16. A brake caliper (2) according to any one of claims 9 to 15, wherein
said pad spring (17) is connected to the caliper body (1) and biases said brake pads
resting on said caliper body (1) in a circumferential direction (C-C) and away from
the brake disc (26) in the axial direction (A-A).
20
17. A brake caliper (2) according to any one of claims 9 to 16, wherein
said brake pads (4) each comprise a support plate (27); and wherein
said support plate (27) comprises a support arm (28) for supporting said support
plate (27) on the pad surface (29) provided in said caliper body (1) facing said brake
21
pads (4) and protruding from an end bridge (30).
18. A brake caliper (2) according to any one of claims 9 to 17, wherein
said brake pads (4) each comprise a support plate (27); and wherein5
said support plate (27) comprises a support fork (33) placed astride said brake-pad
sliding and support pin (11).
19. A brake caliper (2) according to any one of claims 9 to 18, wherein
said caliper body (1) comprises plate support elements (34) which are directed10
radially (R-R) or according to a direction parallel to a radial direction (R-R),
preferably passing through the centerline or pressure center of the brake pad (4),
adapted to support the support plates (27) and to react to the braking action.
20. A brake caliper assembly comprising a brake caliper (2) according to any one of15
claims 9 to 19 and a caliper support (7), wherein said caliper support (7) comprises at
least one caliper support screw seat (23) for accommodating a screw shank (20) of a
connecting screw (6) which connects said caliper body (1) to said caliper support (7).
21. A method of mounting brake pads (4) in a caliper body (1), comprising the steps20
of:
- providing a brake caliper (2) according to any one of claims 9 to 19;
- with the caliper body (1) disassembled, connecting said pad spring (17) to said
caliper body (1);
22
- with the caliper body (1) disassembled, inserting the brake pads (4) into the caliper
body (1) so as to engage the support arm (28) thereof to said pad surface (29);
- inserting said brake-pad sliding and support pin (11) into said pin seat (10) by
positioning the support forks (33) astride said pin (11) and at least partially inserting5
said spring portion (19) into said annular pin seat (18);
- inserting said connecting screw (6) into said screw seat (5), thus at least partially
obstructing access to said pin (18) so that the screw head (8) at least partially
intersects said second pin seat extension (13).