"DISC BRAKE COMPRISING AT LEAST ONE ELASTIC RECALL SPRING OF A BRAKE SKATE, ELASTIC RECALL SPRIN

专利摘要:
The invention proposes a motor vehicle disc brake which comprises a brake disc, a fixed support, a brake shoe axially slidably mounted in the fixed support, and at least one elastic return spring (48) of the brake shoe ( 18) to its rest position. The resilient return spring (48) has a spring attachment portion on the fixed support which includes a rigid attachment blade (200) which is received in a machined complementary portion of the fixed disk brake mount.
公开号:FR3032506A1
申请号:FR1551607
申请日:2015-02-25
公开日:2016-08-12
发明作者:Alexandre Foucoin；Didier Montegu；Xavier Labarre
申请人:Foundation Brakes France SAS；
IPC主号:

专利说明:

[0001] BACKGROUND OF THE INVENTION The invention relates to a disc brake for a motor vehicle. The invention relates in particular to a disk brake including a resilient return spring of a brake shoe comprises means for compensating for the wear of a friction lining of the brake shoe. BACKGROUND OF THE INVENTION The invention relates for example to a motor vehicle disc brake of the type described and shown in the French patent application FR-A1-3,004,500 which comprises: a brake disc which is extends in a plane transverse to an axis of axial orientation of rotation of the disk; a fixed support relative to a chassis of the vehicle; at least one braking pad, each of which comprises a friction lining whose transverse friction face cooperates with an associated braking track of the disk, the braking pad being mounted sliding axially in the support between an active front position in which said face friction is in abutment against the associated annular track of the disk, and an inoperative rear position in which said friction face is spaced axially from said associated annular track of the disk, a determined set of operation; - At least one elastic return spring of the braking shoe to its inactive position, which is for example interposed between the braking pad and the support.
[0002] 3032506 2 In a disc brake, the sliding of the brake pads to their active position is controlled by a piston. The two braking pads strongly pinch the disc to slow its rotation. The braking operation is thus an active operation. The braking pads are pushed back to their idle position by the rotating disk. It is therefore a passive operation. It happens, however, that the disc does not push the 10 brake pads with enough force to spread them away from the disc. This may for example occur when the sliding of the brake pads is of insufficient quality or seized, or if the design creates "restitution".
[0003] Although the braking pads are no longer actively tightened against the disc, each of the annular tracks of the disc nevertheless continuously rubs against the friction lining carried by the associated braking shoe. The friction linings thus undergo premature non-functional wear.
[0004] In addition, this permanent friction is likely to cause a damaging heating for certain components of the disc brake. This permanent friction also causes the appearance of a residual torque which opposes the rotation of the disc. This increases the fuel consumption of the vehicle, while decreasing the performance of the vehicle. To solve these wear and heat-up problems, the above-mentioned document proposes a disk brake in which the elastic return spring comprises means 30 for compensating a set of wear of the friction pad of the braking pad. which plastically deform when the stroke of the braking pad to its active position is greater than said determined set of operation.
[0005] 3032506 3 For this purpose, the elastic return spring, which is interposed between the fixed support of the disk brake and an associated brake pad, comprises at least one axially oriented section which is elastically deformable by traction between a state of rest and a state of maximum elongation whose value is equal to the determined set of operation, the spring comprising at least one plastically deformable section, under the effect of an axial tensile force, forming said means of catching up the play. wear, this plastically deformable section being shaped to be plastically elongated when the stroke of the braking pad to its active position is greater than the determined set of operation. In this document, the elastic return spring comprises a fixing portion of the elastic return spring on the fixed support, and a connection branch, rigid and axially general orientation whose free end section is shaped to cooperate with the associated brake shoe. According to another known design, the free end section is fixed on the braking pad.
[0006] In this document, the attachment portion of the resilient return spring is in the form of a hairpin with a tongue which has a body which extends axially and which is extended by a resilient expansion tab which is folded into back against the body, forming a front fold forming a hinge at the front end of the tongue. The tongue and the expansion tab are received in a notch of a fixed support housing which has a complementary cross section to allow vertical immobilization of the return member.
[0007] Such a design requires in particular a shape of the notch, difficult to machine and requiring a broaching operation, and leads to a complex assembly of the fixing part, especially when the housing comprises a slide, because of its 3032506 hairpin shape, the attachment portion overlaps a vertical bottom of the slide. BRIEF SUMMARY OF THE INVENTION In order to overcome this drawback, the invention proposes a disk brake characterized in that it comprises: a brake disk which extends in a plane transverse to an axis of axial orientation rotation of the disc; a fixed support relative to a chassis of the vehicle; at least one braking pad which comprises a vertical transverse plate which carries a friction lining of which a transverse friction face cooperates with an associated braking track of the disk, the braking pad being slidably mounted axially in the fixed support between a active forward position in which said friction face bears against the associated braking track of the disk, and an inoperative rear position in which said friction face is axially spaced from said associated braking track of the disk, of a determined set of Operation; and at least one elastic return spring of the braking pad to its inoperative position comprising at least one attachment portion of the elastic return spring on the fixed support and comprising a connecting branch which is connected, directly or indirectly, to the pad braking device, and wherein said at least one braking pad comprises at least one sliding guide lateral lug which is received in an axially oriented slide of the fixed support; characterized in that the securing portion of the elastic return spring 30 on the disk brake comprises a rigid blade which extends in a plane parallel to the axial direction of movement of the braking pad, and which is inserted axially into said slide axial orientation of the fixed support.
[0008] According to other features of the disc brake: the blade is flat and rigid with parallel edges and is inserted axially and housed in a notch complementary to said slide; Said slider has, in section by a vertical and transverse plane orthogonal to the axis of rotation of the disc, a form of "C" open transversely towards the associated lateral lug of the braking pad; the slide is delimited transversely by a vertical bottom of axial orientation; said notch is formed in said vertical bottom; said notch is made by machining; - The disk brake comprises a slide which follows the walls of said slide and which is fixed to the fixed support; The blade is arranged transversely between said vertical bottom and a bottom of vertical orientation vis-à-vis said slide; - The fixing portion of the resilient return spring on the fixed support comprises a stop which is in contact with a face 20 vis-à-vis the fixed support to block the axial sliding of the elastic return spring in the direction corresponding to the displacement axial braking shoe to its active braking position; said abutment belongs to an abutment lug which extends from an axially oriented edge of the elastic return spring; - The fixing portion of the elastic return spring on the fixed support comprises a stabilizing tab of the resilient return spring which cooperates with a portion of said slide; Said stabilizing lug extends transversely and horizontally from an axially oriented edge of the elastic return spring; Said slide is delimited vertically by a horizontal bottom of axial orientation; said stabilizing tab is extended by an axially and vertically oriented spout, a free end edge of which is received in an axial groove which is formed in said horizontal bottom of said slide; said connecting branch is a rigid branch of axial orientation parallel to the direction of sliding of the braking pad; The resilient return spring comprises means for compensating a set of wear of the brake shoe friction lining, which deforms plastically when a travel of the braking shoe to its active braking position, is greater than said determined set of operation; The elastic return spring is made in one piece by cutting and forming a sheet of material. The invention proposes an axial resilient return spring of a braking pad which comprises: a portion for fixing the resilient return spring on the disk brake; and a connecting branch which is connected, directly or indirectly, to the braking shoe; characterized in that the fixing portion of the resilient return spring on the disk brake comprises a rigid blade which extends in a plane parallel to the axial direction of movement of the braking pad, to be inserted axially into a complementary portion of the disc brake ; According to other characteristics of the elastic return spring: the fixing portion of the elastic return spring on the disc brake comprises a stop for cooperating with a face facing the disc brake to block the sliding axial of the elastic return spring in the corresponding direction 3032506 7 to the axial displacement of the braking pad towards its active braking position; said abutment belongs to an abutment lug which extends from an axially oriented edge of the elastic return spring; - The fixing portion of the elastic return spring on the fixed support comprises a stabilizing tab of the resilient return spring which cooperates with a portion of said slide; said stabilizing tab extends transversely and horizontally from an axially oriented edge of the elastic return spring; said connecting branch is a rigid branch of axial orientation parallel to the direction of sliding of the braking pad; The spring comprises means for compensating a set of wear of a friction lining of the braking shoe, which are interposed between said fixing portion and said connecting branch, and which deform plastically when a stroke the braking pad, in an axial direction of displacement to an active braking position, is greater than a determined set of operation; - The spring is made in one piece by cutting and forming a sheet of material. The invention proposes a replacement kit for a motor vehicle disc brake according to the invention, characterized in that it comprises at least one braking pad and two resilient return springs matched to said braking pad, each of which is made according to the invention. The replacement kit may further comprise two springs for mounting the brake pad in the disk brake.
[0009] BRIEF DESCRIPTION OF THE FIGURES Other features and advantages of the invention will become apparent on reading the detailed description which follows, for the understanding of which reference will be made to the appended drawings in which: FIG. exploded perspective which represents a disk brake comprising an example of an elastic spring in one piece according to the state of the art; FIG. 2 is a front view showing the fixed support of the disc brake of FIG. 1 provided with slides for receiving elastic return springs of an associated braking pad; FIG. 3A is a diagrammatic perspective view which illustrates an exemplary embodiment in which each lug of a braking pad is equipped with a "radial" spring; Figure 3B is a detail view of the representation in Figure 3A; FIG. 4 is a partial perspective view illustrating the assembly of a braking pad with a radial spring in an arm of a yoke forming a fixed support provided with an attached slide; FIG. 5 is a perspective detail view showing a resilient return spring of the plastically deformable one-piece brake shoe according to a design alternative; FIG. 6 is a perspective view illustrating an example of an elastic return spring according to the invention associated with an active lug fixed to the braking shoe, the assembly being illustrated mounted on the disk brake and in a state "New" of the elastic return spring not deformed elastically or plastically; FIG. 7 is a view similar to that of FIG. 6, according to another perspective angle; FIG. 8 is an axial end view of the assembly illustrated in FIGS. 6 and 7; Figure 9 is a perspective view, partially broken away, of the spring illustrated in Figures 6 to 8; FIG. 10 is a large axial end view of the slide shown in FIGS. 6 and 7; FIG. 11 is a large-scale end axial view similar to that of FIG. 8 which illustrates the mounting of the resilient return spring of FIG. 9. DETAILED DESCRIPTION OF THE FIGURES In the following description, elements exhibiting an identical structure or similar functions will be designated by the same references. Non-limiting and without reference to earth gravity will be adopted axial, vertical and transverse orientations with reference to the triad "A, V, T" of the figures. The axial orientation "A" is directed from back to front, parallel to an axis "B" of rotation of the disk 12. The horizontal plane is defined as being a transverse axial plane.
[0010] FIG. 1 diagrammatically shows a disc brake 10 of a motor vehicle. This is a disk brake 10 called "floating caliper" or "sliding caliper". In known manner, the disk brake comprises a disk 12 which is rotatably mounted about an axially oriented axis "B" of rotation 30. The disc 12 is secured in rotation with a wheel (not shown) of the motor vehicle. The disc brake 10 includes a support 14, also called clevis, which is fixedly mounted with respect to the frame (not shown) 3032506 of the vehicle. The fixed support 14 overlaps a peripheral edge 16 of the disc 12. Two opposing braking pads 18, rear and front (also called inside and outside) are mounted sliding axially 5 in the fixed support 14 on either side of the disc 12. The two braking pads 18, rear and front, have a structure and an arrangement on the fixed support 14 which are identical in symmetry with respect to a median vertical transverse plane.
[0011] Subsequently, only the rear brake pad 18 will be described on the left with reference to FIG. 1, the description being applicable to the front brake pad 18 by reversing the forward and reverse directions. The rear brake pad 18 is in the form of a vertical transverse plate 19 friction lining support. The rear brake pad 18 has a front face 20, which is oriented towards a rear face 22 opposite the disk 12 which is in the form of an annular track. The front face 20 carries a friction lining 24, a transverse and vertical front face 25 of friction is adapted to cooperate with the face 22 of the disc 12. Each of the opposite transverse ends of the brake shoe 18 has a side lug 26 which is slidably mounted, with clearance, in a slider 28 associated with an associated arm 27 of the yoke or fixed support 14. Each slider 28 is axially oriented and has, in section, a vertical and transverse plane orthogonal to the axes A and B, a form of "C" open transversely to the associated side lug 26 of the braking pad 18. The slide 28 is delimited transversely by a bottom 30 of axial orientation and generally vertical. In addition to the vertical bottom 30, the slide is defined by an upper horizontal bottom 33 and a lower horizontal bottom 35, both of axial orientation.
[0012] In the example shown in the figures, a slide 32 is interposed transversely between each side lug 26 and the associated slide 28. Each slideway 32 is a lamellar element formed by a "C" section leaf spring which follows the walls of the associated slide 28 (see in particular FIG. 4). The slide has an upper sliding and support wing, of generally horizontal orientation, which is interposed between the lug 26 of the braking pad 18 and the upper bottom 33 10 of the housing 28, a bottom 34 of vertical orientation, which is interposed between the lug 26 of the braking pad and the vertical bottom 30, and a resilient holding flange which is arranged under the lug 26 of the braking pad 18. The slide 32 thus comprises a bottom 34 of orientation 15 vertical and axial which is arranged opposite the vertical bottom 30 of the slide 28. The slide 32 allows a determined degree of movement of the braking pad 18 in the fixed support 14, that is to say, generally but not so In a limiting manner, an axial sliding movement, and a transverse sliding movement accompanying the rotation of the disc 12, during a braking action. In a nonlimiting manner, each lateral lug 26 may be equipped with a so-called mounting spring of the type described and shown in document FR-A1-2.925.636, an example of which is illustrated in detail in FIGS. 3A. 3B and 4. FIG. 4 illustrates the assembly of a mounting spring on a lateral ear 26 and the mounting of the thus-equipped ear in an associated slideway 32.
[0013] FIGS. 3A, 3B and 4 schematically show a spring 100 for mounting the braking pad 18, also called a radial spring, capable of equipping the lugs 26 with a braking pad 18 for mounting and guiding in the associated axial slides 28 of the fixed support 14, with or without the presence of slideways 32. In a known manner, each spring 100 of the shoe has a lower sliding branch 102 which cooperates with a sliding member 30. lower horizontal bottom 35 of the associated slide and which solicits an upper horizontal facet of the lug 26 bearing vertically upwards against the upper horizontal bottom 33 vis-à-vis the slide 28. According to the conformation illustrated, the spring 100 of skate is commonly called "snail spring" and it comprises a branch 104 bearing under a lower horizontal facet of the lug 26 of the braking pad 18, this arm 104 being part of e of a fastening branch, or clip, 106 which resiliently clips the ear 26 to ensure the fixing of the shoe spring 100 to the ear 26. The shoe spring 100 further comprises a curved limb 108 which connects the limb fastening 106 to the lower sliding branch 102 by providing mainly the elasticity of the slipper spring 100.
[0014] The braking pad 18 is thus slidably mounted in an axial direction, parallel to the axis of rotation B of the disc 12, in the fixed support 14 over an operating stroke between: an active front position in which the front transverse face friction 25 of the friction lining 24 is in abutment against the face 22 facing the disc 12; and an inoperative rear position in which the front transverse friction face 25 of the friction lining 24 of the braking pad 18 is spaced axially from the associated face 22 of the disk 12 by a determined operating clearance 30 "J1 ". During a braking operation, the tightening of the braking pads 18, from their inactive position to their active position, is controlled by a brake caliper 36 of the disk brake 10. In a known manner, the caliper 36 has an arch 38 which extends axially above the fixed support 14 by covering 5 and two rear wings 40 and 42 which extend radially from the rear and front end edges of the arch 38 towards the axis "B". The front wing 42 extends facing the front brake pad 18, and the rear wing 40 extends opposite the rear brake pad 18. The yoke 36 is here mounted to slide axially relative to the fixed support 14 by means of two parallel guide columns 44, each of which is slidably received in an associated axial bore 45 of the fixed support 14.
[0015] In known manner, the rear wing 40 of the yoke 36 carries at least one axial piston 46, a transverse front face of support is likely, during a braking operation, to cooperate with the transverse face screw to screw of the rear braking shoe 18 to urge it axially forward to exert an axial force 20 of clamping the front transverse friction face 25 of the friction lining 24 against the face 22 opposite the disk 12. By reaction, the yoke 36 slides axially rearwardly and symmetrically the front wing 42 urges the braking pad 18 forward to clamp the friction rear transverse face 25 of the friction lining 24 of the brake pad 18 forward bearing against the front face 22 opposite the disc 12. When, after the braking operation, the piston 46 stops to apply the rear brake pad 18, the return of the 30 brake shoes 18, from their position act ive to their inactive position, is generally caused by the rotation of the disc 12 which "pushes" each brake pad 18 to its inactive position.
[0016] Nevertheless, in some cases, it has been found that the repulsive force exerted by the disk 12 is not sufficient to push each of the braking pads 18 to its respective inactive position. The friction lining 24 of the braking pads 18 thus continues to rub against the disc 12, while no action of clamping the friction linings of the braking pads by the stirrup 36 is controlled. At the end of a braking operation, to ensure that each braking pad 18 returns to an inactive position, the disk brake 10 is provided with elastic return means of the braking pad 18 to its inactive position. These elastic return means are made in the form of resilient return springs which are interposed between the braking pad 18 and the fixed support 14.
[0017] The disc brake 10 comprises, by way of nonlimiting example, four elastic return springs 48, also called "spacer" springs, each of which - without limitation - is here arranged between an arm 27 of the fixed support 14 and an ear associated side 26 of a braking pad 18.
[0018] Thus, a braking pad 18, rear or front, is here associated with two resilient return springs 48 each of which cooperates with the plate 19 friction lining. By way of non-limiting example, the four resilient return springs 48 are of the same overall design and they are arranged in the same manner on the fixed support 14. The principle of design of only one of these springs 48 of elastic return of the slider rear brake 18 will be described here in detail. An elastic return spring 48 is in the form of a metal strip, for example of steel, of rectangular section whose width extends vertically and which is produced for example by cutting, stamping and bending a metal sheet. stainless steel of constant thickness.
[0019] Referring in particular to FIG. 5, an elastic return spring 48 comprises a first fastening portion 50, in the general form of a fastening tab 52 of the spring 48 on the fixed support 14, which is connected to the end of a first rigid branch B1 and which extends in an orthogonal plane to be fixed, for example by riveting, on an associated part of the fixed support 14. From the first straight rectilinear branch of axial orientation B1, the resilient return spring 48 is successively extended by three other rigid straight branches B2, B3 and B4 respectively. The first leg B1 has its proximal end connected to the elbow 54, while its distal end is located axially out of the slide 28 to be connected to the second rigid leg B2. The second rigid branch B2 is connected to the first rigid branch B1 by a first deformable first fold P1. Like the first branch B1, the second rigid branch B2 is shaped as a strip in the extension of the first rigid branch B1. In such a way that the first bend P1 in the form of a bend constitutes a plastically deformable zone, this portion is weakened mechanically, here by means of a window or light F1 which is here a rectangular-shaped open cutout.
[0020] In the same way, the third rigid branch B3 is connected to the second rigid branch B2 by a second plastically deformable fold P2. The second fold P2 is a bent portion of the web of material having a window F2.
[0021] Finally, the fourth branch B4 is connected to the third rigid branch B3 by a third plastically deformable fold P3.
[0022] The third ply P3 comprises a window F3 similar to the windows F1 and F2. The fourth rigid branch B4 is rectilinear and of general axial orientation parallel to the first rigid branch B1 and is extended here by a front free end section intended to be connected directly to the associated brake shoe 18. The free end end section is here made by extending the constituent band Bi branches.
[0023] According to the designs illustrated in FIG. 1 or FIG. 5, the front free end section of the elastic return spring 48 is shaped as an active tab 62 which is bent at right angles to act directly on a portion facing with respect to the friction lining plate (FIG. 1) or to be fixed directly to an associated part of the braking shoe 18 (FIG. 5), and for example of its friction lining plate 19. In the figures, the elastic return spring 48 is shown in a "new" initial state, that is to say before any plastic deformation of the plies Pi. In this state, new or initial, the first branch B1 and the fourth rigid branch B4 are substantially parallel to each other and axially oriented by being arranged at a transverse distance from one another.
[0024] In the state - not shown - of maximum plastic deformation of the elastic return spring 48, the first and fourth rigid branches B1 and B4 are always substantially parallel, axially oriented and spaced from each other substantially from one another. same distance, while the three ply Pi have been plastically deformed. By way of example, the thickness of the material strip is between 0.5 and 0.8 millimeters and the material is a reference stainless steel X2CrNbCu21 or reference 304L (X2CrNi18-9 / X2CrNi19-11). . For example, the maximum displacement corresponding to a maximum wear "J2" is equal to about 14 millimeters.
[0025] When the braking pad 18 is biased towards its active position by the piston 46, it first runs through the path corresponding to the set clearance "J1" of operation. During this first part of the race, the braking pad 18 drives the branch B4 of the elastic return spring 48 so as to elastically tension the elastic return spring 48 between the fixing portion 50 fixed to the fixed support 14, and the B4 branch connected to the brake pad 18. The elastically deformable portions of the elastic return spring 48 then reach their maximum elongation state.
[0026] Pi folds deform, first elastically, then plastically. The front transverse face of the friction lining 24 of the braking pad 18 is further spaced, with respect to the associated annular face or track of the disk 12, by a distance equal to the clearance "J2" of wear. The braking pad 18 continues its axial stroke to its active position. During this second part of the race, the elastically deformable parts being no longer able to deform "elastically", the clamping force is transmitted to plastically deformable plies Pi 25 of the elastic return spring 48. The plies Pi are then plastically deformed, the elastic deformations plastically deformable parts being negligible compared to their plastic deformation. When the braking operation ends, the braking pad 18 is returned to its inactive position by the elastically deformable parts which resume their rest state. The braking pad 18 is thus again spaced from the disk 12 by a distance equal to the only set "J1" of operation; the play "J2" of wear having been absorbed by the plastic deformation of plastically deformable folds Pi. The elastic return spring 48 thus ensures that the braking pad 18 is returned to its inactive position.
[0027] In addition, the arrangement of plastically deformable folds Pi makes it possible to prevent the clamping force to be exerted by the piston 46 to actuate the braking pad 18 towards its active position to become too high. In addition, by maintaining a constant operating clearance "J1" between the braking pad 18 in the inactive position and the disk 12, the response time of the braking system remains constant regardless of the wear of the friction lining 24. With complete wear of the friction lining, the resilient return spring 48 is plastically deformed and, like the spent braking pad 18, it must be replaced. According to the two conceptions schematically illustrated in FIGS. 1 and 5, the elastic return spring comprises, in an integrated manner, the active tab 62 intended to "act" on the braking pad 18, and in particular on the stuffing plate 19. A design example will now be described with reference to FIGS. 6 to 9, in which the active tab 62 is an independent component of the elastic return spring 48 itself and is attached to the braking pad 18 from which it extends towards rearward in the axial direction, and in which a front free end section of the connection branch B4 and a rear free end section of the active tab 62 comprise complementary means for cooperating complementary shapes. The active tab 62 includes a rear free end section 64 which is a strip which extends in a vertical axial plane and a fastener section 66 which is bent at right angles and which extends in a vertical plane. and transversal. For the fixing of the active tab 62, here on a portion opposite the lining plate 19, the fastening section 66 5 is crimped by means of a rivet 68 whose not shown rod has a profile no revolution which extends through a not shown complementary hole of the section 66 so as to angularly position the active tab 62 relative to the braking pad 18 with the orientation of the section 64 generally in a vertical axial plane. More specifically, the transverse lining plate 19 is provided with an intermediate plate 120. The equipment of the lining plate 19 with such an intermediate functional plate 120 is known, and for example illustrated in FIG. plus a plate of elastomeric material 122. The functions and roles of this type of intermediate plate are well known to those skilled in the art. The plate 120 is a metal plate, for example of stainless steel, or of rigid material which is interposed axially between the friction lining support plate 19 and a disk brake member acting on the braking pad such as for example the piston. The plate 120 is axially secured to the braking pad, for example by means of rivets 124. The intermediate plate 120 has a face 121 intended to be in contact directly or indirectly with the piston. The rear free end section 64 comprises a hook 70 which extends transversely in a plane orthogonal to the plane of the strip constituting the section 64.
[0028] The hook 70 is formed at the end of a finger 72 which defines a front free edge of "horizontal" transverse orientation 74. It should be noted that each active tab 62 is of identical design and has a general symmetry of design. relative to a median axial and transverse plane. The rigid branch B4 "connection" of the elastic return spring 48 to the active tab 62 carried by the friction lining 18 is extended by a front free end portion 80 10 adapted to cooperate with the rear free end section 64 of the active tab 62. The section 80 is a strip which extends in a vertical axial plane and which, in mounted position and assembled with the section 64, is in plane-to-plane contact with the latter, the two sections being held against each other. The section 80 has a notch 84 cut in the section 80. The notch 84 is in the shape of a rectangular window. The notch 84 is delimited axially towards the rear by a rear edge 88 which, in assembled and assembled position of the two sections 64 and 80, is able to cooperate with the free edge 74 of the hook 70 during the elastic return of the skid. braking 18 towards the rear, towards its inactive position. To allow the assembly by axial interlocking by elastic deformation, the end portion is shaped into a ramp 96. During the assembly of the two components, that is to say when, by a relative axial movement, the spring of Elastic return 48 is coupled to the associated active tab 62, the complementary means of connection by cooperation of complementary shapes of the free end end section of the connecting leg and the rear free end section of the active tab cooperate by interlocking. elastic.
[0029] The ramp 92 slightly spreads the finger and the hook 72 and 70, by elastic deformation until penetration and reception in the notch 84. This leads to the state illustrated in FIG. 6 in which: the section of front free end 80 of the connecting branch B4 is a strip which extends in a vertical axial plane; the rear free end section 64 of the active tab 62 is a strip which extends in a plane parallel to that of the section 80; the free end sections 64 and 80 are adjacent, plane to plane; - The orthogonal transverse orientation finger 72 carried by the section 64 is received in a notch 84 formed in the section 80; a front edge 74 of the finger cooperates with a rear edge 88 of the notch 84. For its mounting on the arm 27 of the fixed support 14, the elastic return spring 48 comprises a so-called "fixing" portion 50 which is an extension of FIG. blade shape 200 of the first branch B1. The blade 200 is flat and rigid with parallel horizontal edges and is inserted and accommodated in a complementary machining 31 formed in the vertical bottom 30 to provide the greatest stability to the attachment portion and the resilient return spring 48. in the new state, as shown in the figures, the blade 200 extends in the extension and in the same axial and vertical plane as that of the first branch B1. The blade 200 constitutes the free end portion 30 of the branch B1. The blade 200 of the portion 50 for fixing the elastic return spring 48 on the fixed support 14 is fixed by axial insertion in the associated slide 28, along the vertical bottom 3032506 22 which is shaped as an axial notch 31 sized to receive The blade 200 is thus received and housed between the vertical bottom 30 and the bottom 34 of vertical orientation of the associated slide 32 5 which is interposed between the lug 26 of the braking pad and the blade 32. bottom 30. More precisely the notch 31 is machined for example by axial broaching or by milling, and it is delimited by a vertical face 300, and by an upper horizontal face 302; In the mounted position, the plane outer face 201 is in transverse support against the vertical face 300 and the upper horizontal edge 208 of the blade 200 is in vertical support upward against the upper horizontal face 302, and this substantially over the entire length axial edge 208.
[0030] The portion 50 for fixing the resilient return spring 48 on the arm 27 has a stop 202 which is in contact, in axial abutment, with an opposite face 204 of the arm 27 of the fixed support 14 to block the sliding axial axis of the elastic return spring 48, axially forward, in the direction corresponding to the axial displacement of the braking pad 18 to its active braking position. The abutment 202 belongs to an abutment lug 206 which extends from the horizontal upper edge of axial orientation 208.
[0031] The abutment 202 is here a transverse edge free end end of the abutment lug 206 which extends in a vertical and transverse plane orthogonal to the plane of the blade 200. The face 204 is advantageously a raw surface of the support arm fixed that does not require specific machining.
[0032] Thus, the elastic return spring 48 is not properly fixed to the arm 27, but it is mounted axially on the latter, by axial insertion of the rear blade 3032506 23 before, with axial positioning by setting abutment support 202 on the surface 204. The stability of the fixing portion is further completed by means of a stabilizing tab 212 which extends transversely and horizontally from the lower edge 208 of the blade 200. The leg stabilization is prolonged by a spout 214 of axial and vertical orientation whose lower horizontal edge 216 is received in an axial groove 304 of the slide 28.
[0033] The axial groove 304 is made by machining and, for example, by axial broaching or milling, in the lower horizontal bottom 35 of the slider 28. The material removed by machining is represented in a hatched manner to make the notch 31 and the groove 304 in the bottoms 30 and 35. The groove 304 extends axially at least partly over the axial length of the lower horizontal bottom 35, over a length sufficient to allow the axial insertion of the blade 200 until the coming into force. axial stop of the resilient return spring 20. The axial groove 304 is delimited by a lower horizontal bottom face 306 and a lateral vertical face 308, transversely opposite the vertical face 300 of the notch 31.
[0034] In the mounted position of the elastic return spring 48, and as can be seen in particular in FIG. 11, the lower edge 216 bears vertically against the lower bottom face 306 of the groove 304, with a slight elastic prestress due to the elastic deformation capacity of the stabilizing lug 212 30 during assembly of the elastic return spring 48. Thus, the forces for maintaining the elastic return spring 48 are vertically upwards against the upper face 302 and transversely and horizontally towards the the 3032506 24 left by cooperation of the face 218 of the spout 214 bearing against the vertical side face 308 of the groove 304. All means described above for the axial positioning of the elastic return spring 48, its 5 lateral support with respect to the fixed support and its stabilization take into account the axial forces of movement of the braking pad, the torque or swivel the spring about a radial axis at its interface with the fixed support, and the radial translation force for the return of the braking pad. To facilitate axial insertion mounting, the front edge of the blade 200 has chamfers 210, as well as the nose 214 has chamfers 217. Due to the design of the attachment portion 50, and particularly the stop 202, the two springs 48 equipping a brake pad 18 are not identical and interchangeable, but they are a pair of two springs associated and matched to a front and / or rear braking pad, whose design is symmetrical with respect to a vertical and axial axial plane. Assembly and assembly at the factory is carried out according to the following method: a) mounting the opposite rails 32; b) mounting of the brake pad 18 equipped with its two radial springs 100; c) axial mounting of the two springs 48 elastic return in the housing 28; d) axial and elastic interlocking of the elastic return springs 48, each with its associated active tab 62.
[0035] An assembly or kit for replacing a worn set of brake shoes 18 comprises, for each brake shoe, a nine brake pad 18, itself equipped with a pair of associated active tabs, and at least one set of brake pads. two elastic return springs 3032506 constituting a pair of elastic return springs matched to the associated braking shoe. If the braking shoe is of the type equipped with pad mounting springs 100, the replacement kit comprises, for each braking pad, a new pad equipped with its two pad springs 100, one for each of its two radial ears. 26.

权利要求:
Claims (23)
[0001]
REVENDICATIONS1. A disc brake (10) of a motor vehicle comprising: - a brake disc (12) which extends in a plane transverse to an axis (A) of axial rotation orientation of the disc; a support (14) fixed with respect to a chassis of the vehicle; at least one braking pad (18) which comprises a vertical transverse plate (19) which carries a friction lining (24) of which a transverse friction face (25) cooperates with an associated braking track (22) of the disk (12), the braking pad (18) being axially slidably mounted in the fixed support (14) between an active front position in which said friction face (25) bears against the associated braking track (22) of the disk (12), and an inoperative rear position in which said friction face (25) is axially spaced from said associated brake track of the disk, of a determined operating clearance (J1); and at least one elastic return spring (48) of the braking shoe (18) towards its inactive position comprising at least one attachment portion (50) of the elastic return spring (48) on the fixed support (14) and having a connection branch (B4) which is connected, directly or indirectly, to the brake shoe (18), and wherein said at least one brake shoe (18) has at least one lateral guide lug (26). sliding which is received in a slide (28) of axial orientation of the fixed support (14); characterized in that the attachment portion (50) of the elastic return spring (48) on the disc brake (12) comprises a rigid blade (200) which extends in a plane parallel to the axial direction (A). movement of the brake shoe (18), and which is inserted axially into said axially oriented slide (28) of the fixed support (14).
[0002]
2. Disk brake according to claim 1, characterized in that the blade (200) is flat and rigid with parallel edges and is inserted axially and housed in a complementary slot (31) of said slide (28).
[0003]
3. Disk brake according to claim 2, characterized in that: - said slide (28) has, in section by a vertical and transverse plane orthogonal to the axis of rotation of the disk, a form of "C" open transversely to the associated lateral lug 26 of the brake shoe (18); - The slide (28) is defined transversely by a vertical bottom (30) of axial orientation; said notch (31) is formed in said vertical bottom (30).
[0004]
4. Disc brake according to claim 3, characterized in that said notch (31) is made by machining.
[0005]
Disc brake (10) according to claim 1, characterized in that: - it comprises a slide (32) which follows the walls of said slide (28) and which is fixed to the fixed support (14); and - the blade (200) is arranged transversely between said vertical bottom (30) and a bottom (34) of vertical orientation vis-à-vis said slide (32).
[0006]
6. Disc brake (10) according to claim 1, characterized in that the portion (50) for fixing the elastic return spring (48) on the fixed support (14) comprises a stop (202) which is in contact with an opposing face (204) of the fixed support (14) for blocking the axial sliding of the elastic return spring (48) in the direction corresponding to the axial displacement of the braking shoe (18) towards its active position of braking. 3032506 28
[0007]
Disc brake according to claim 6, characterized in that said abutment (202) belongs to an abutment lug (206) extending from an axially oriented edge (208) of the elastic return spring. (48). 5
[0008]
8. Disc brake according to claim 1, characterized in that the portion (50) for fixing the elastic return spring (48) on the fixed support (14) comprises a stabilizing tab (212) of the elastic return spring ( 48) which cooperates with a portion of said slide (28). 10
[0009]
Disc brake according to claim 8, characterized in that said stabilizing tab (212) extends transversely and horizontally from an axially oriented edge (208) of the resilient return spring (48).
[0010]
10. Disc brake according to claim 9, characterized in that: said slide (28) is delimited vertically by a horizontal bottom (35) of axial orientation; and - said stabilizing tab (212) is extended by a spout (217) of axial and vertical orientation, a free end edge (218) is received in an axial groove (216) which is formed in said horizontal bottom of said slider (28).
[0011]
11. Disk brake according to claim 1, characterized in that said branch (B4) of connection is a rigid branch of axial orientation parallel to the sliding direction of the brake pad (18).
[0012]
12. Disc brake (10) according to claim 1, characterized in that the elastic return spring (48) comprises means for catching a wear clearance (J2) of the friction lining (24) of the shoe brake (18), which deforms plastically when a stroke of the braking pad to its active braking position, is greater than said determined set of operation (J1). 3032506 29
[0013]
Disc brake (10) according to claim 1, characterized in that the elastic return spring (48) is made in one piece by cutting and forming a sheet of material. 5
[0014]
14. Spring (48) resilient axial return of a brake pad (18), a disc brake (12), to an inactive position, wherein the resilient return spring (48) comprises: - a portion attaching (50) the resilient return spring (48) to the disk brake (14); and 10 - a connection branch (B4) which is connected, directly or indirectly, to the braking shoe (18); characterized in that the fastening portion (50) of the resilient return spring (48) on the disc brake (12) comprises a rigid blade (200) which extends in a plane parallel to the axial direction (A) 15 of moving the braking pad (18) to be inserted axially into a complementary portion (28, 31) of the disk brake.
[0015]
15. Spring according to claim 14, characterized in that the portion (50) for fixing the elastic return spring (48) 20 on the disc brake (12) comprises a stop (202) to cooperate with a face (204). facing the disc brake (12) to block the axial sliding of the elastic return spring (48) in the direction corresponding to the axial displacement of the brake pad (18) towards its active braking position. 25
[0016]
16. Spring according to claim 15, characterized in that said stop (202) belongs to an abutment lug (212) which extends from an edge (208) of axial orientation of the elastic return spring (48). ).
[0017]
17. Spring according to claim 14, characterized in that the portion (50) for fixing the elastic return spring (48) on the fixed support (14) comprises a tab (212) for stabilizing the elastic return spring (48). ) which cooperates with a portion of said slide (28). 3032506 30
[0018]
18. Spring according to claim 17, characterized in that said stabilizing lug (212) extends transversely and horizontally from an edge (208) of axial orientation of the elastic return spring (48). 5
[0019]
19. Spring according to claim 14, characterized in that said branch (B4) connection is a rigid branch of axial orientation parallel to the sliding direction of the brake pad (18).
[0020]
20. Spring according to claim 14, characterized in that it comprises means of catching a wear clearance (J2) of a friction lining (24) of the braking shoe (18), which are interposed between said fixing portion and said connecting branch (B4), and which plastically deform when a stroke of the braking pad (18), in an axial direction of displacement to an active braking position, is greater than a determined game of operation (J1).
[0021]
21. Spring according to claim 14, characterized in that it is made in one piece by cutting and forming a sheet of material. 20
[0022]
22. Replacement kit for a motor vehicle disc brake according to any one of claims 1 to 13, characterized in that it comprises at least one braking pad (18) and two springs (48) matched elastic return said brake pad (18) each of which is made according to any one of claims 14 to 21.
[0023]
23. Replacement kit according to claim 22, characterized in that it further comprises two springs (100) for mounting the brake shoe in the disc brake.

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP2792899B1|2020-05-27|Disc brake equipped with elastic returning means and with plastic deformationwear compensation means for brake pads

---

EP3006763A1|2016-04-13|Return spring of a brake shoe including wear play compensation means, disk brake and replacement kit

---

EP3265687B1|2020-04-29|Disc brake comprising at least one resilient return spring of a brake pad, resilient return spring, guiding slide and replacement kit

---

EP2072850B1|2015-02-25|System for installing a disc brake shoe

---

EP3020996B1|2020-04-22|Sliding caliper disk brake including a central return spring of an exterior brake shoe including wear play compensation means, spring and replacement kit

---

EP2791538B1|2017-03-29|Disc brake pad guideway and disc brake equipped with such a guideway

---

EP3253984B1|2022-01-26|Disk brake comprising at least one spring for the elastic return of a brake pad, elastic return spring, and replacement kit

---

FR2876427A1|2006-04-14|FRICTION ELEMENT PROVIDED WITH RECALL MEANS AND DISC BRAKE COMPRISING SUCH A FRICTION ELEMENT

---

WO2013087868A1|2013-06-20|Spring-equipped member for guiding a disc brake pad and disc brake provided with such guiding members

---

WO2016135117A1|2016-09-01|Disk brake comprising at least one resilient return spring of a brake shoe, resilient return spring, replacement kit and assembly method

---

WO2016135118A1|2016-09-01|Disk brake comprising at least one improved resilient return spring for a brake shoe, resilient return spring, replacement kit and assembly method

---

EP3265688B1|2020-04-29|Brake disc comprising at least one improved resilient return spring of a brake pad, resilient return spring, and replacement kit

---

FR2912194A1|2008-08-08|Disk brake for motor vehicle, has spacing units including arms connected to respective plates by spring, where spring has ends which are fixed to respective arms such that elastic return action of spring ensures space between plates of disk

---

EP1933054B1|2013-02-20|Disc brake comprising elastic means for returning the brake shoe to its disengaged position

---

WO2020260098A1|2020-12-30|Disc brake comprising at least one elastic return spring for a brake pad, elastic return spring, replacement kit and mounting method

---

WO2017114870A1|2017-07-06|Sliding device and sliding guide for a disc brake pad for reducing residual braking

---

EP1614924B1|2011-04-06|Floating caliper disc brake with means for preventing the deformation of the brake carrier during braking

---

EP1914437B1|2009-10-07|Disc brake having a self centering shim

---

WO2009037273A1|2009-03-26|Floating calliper disc brake comprising a guide pin around which there is fitted a deformable ring equipped with an internal sleeve

同族专利:

---

公开号 | 公开日

---

EP3253984B1|2022-01-26|

---

WO2016124389A1|2016-08-11|

---

WO2016124728A1|2016-08-11|

---

CN107208721A|2017-09-26|

---

FR3032505A1|2016-08-12|

---

DE16702963T1|2018-02-22|

---

US10563716B2|2020-02-18|

---

JP6900315B2|2021-07-07|

---

US20180023643A1|2018-01-25|

---

FR3032505B1|2017-03-17|

---

EP3253984A1|2017-12-13|

---

JP2018508722A|2018-03-29|

---

FR3032506B1|2020-03-27|

---

CN107208721B|2019-08-23|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

JPH06109041A|1992-09-22|1994-04-19|Aisin Seiki Co Ltd|Disc brake for vehicle|

---

JP2012063014A|2011-11-21|2012-03-29|Hitachi Automotive Systems Ltd|Disc brake|

---

EP2792899A1|2013-04-16|2014-10-22|Chassis Brakes International B.V.|Disc brake equipped with elastic returning means and with plastic deformationwear compensation means for brake pads|

---

DE8327272U1|1983-09-22|1984-01-19|Lucas Industries P.L.C., Birmingham, West Midlands|AUTOMATICALLY RESETTABLE BRAKE SHOE FOR PARTIAL COVER DISC BRAKES|

---

JP3816588B2|1996-07-09|2006-08-30|株式会社日立製作所|Disc brake|

---

DE10238734A1|2002-08-23|2004-03-04|Continental Teves Ag & Co. Ohg|Floating caliper disc brake for motor vehicles has brake lining spring fastened to lining and supported axially relative to brake holder via spring arm|

---

FR2925636B1|2007-12-21|2010-04-02|Bosch Gmbh Robert|SYSTEM FOR MOUNTING DISC BRAKE PAD.|

---

JP5047200B2|2009-01-21|2012-10-10|日立オートモティブシステムズ株式会社|Disc brake|

---

US8397880B2|2010-05-27|2013-03-19|Akebono Brake Corporation|Pad retraction device|

---

DE102012016737A1|2012-08-23|2014-02-27|Lucas Automotive Gmbh|Disc brake for a motor vehicle with plastically deformable return spring and return spring|

---

CN104662323B|2012-09-25|2018-01-26|日立汽车系统株式会社|Disk brake|

---

JP5855606B2|2013-06-18|2016-02-09|日信工業株式会社|Vehicle disc brake|

---

US9279466B2|2013-07-22|2016-03-08|Nissin Kogyo Co., Ltd.|Vehicle disc brake|

---

FR3027080B1|2014-10-10|2018-03-09|Chassis Brakes International B.V.|"ELASTIC RECALL SPRING FOR A BRAKE SKATE HAVING MEANS FOR REAGGING THE WEAR GAME, DISC BRAKE, AND REPLACEMENT KIT"|FR3033378B1|2015-03-06|2018-08-10|Foundation Brakes France|"DISC BRAKE COMPRISING AT LEAST ONE ELASTIC RECALL SPRING OF A BRAKE SKATE, ELASTIC RECALL SPRING, GUIDE SLIDER AND REPLACEMENT KIT"|

---

DE102015007523A1|2015-06-12|2016-12-15|Lucas Automotive Gmbh|Disc brake for a motor vehicle and brake pad assembly therefor|

---

DE102016202520A1|2016-02-18|2017-08-24|Continental Teves Ag & Co. Ohg|Friction lining arrangement with restoring spring for clearance simulation for a motor vehicle part lining disc brake|

法律状态:
2016-01-22| PLFP| Fee payment|Year of fee payment: 2 |

---

2016-08-12| PLSC| Publication of the preliminary search report|Effective date: 20160812 |

---

2017-01-24| PLFP| Fee payment|Year of fee payment: 3 |

---

2018-01-23| PLFP| Fee payment|Year of fee payment: 4 |

---

2019-01-23| PLFP| Fee payment|Year of fee payment: 5 |

---

2020-01-22| PLFP| Fee payment|Year of fee payment: 6 |

---

2021-01-20| PLFP| Fee payment|Year of fee payment: 7 |

---

2022-01-19| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

---

申请号 | 申请日 | 专利标题

---

FR1550928|2015-02-06|

---

FR1550928A|FR3032505B1|2015-02-06|2015-02-06|"DISC BRAKE COMPRISING AT LEAST ONE ELASTIC RECALL SPRING OF A BRAKE SKATE, ELASTIC RECALL SPRING, BRAKE SKATE AND REPLACEMENT KIT"|EP16702963.6A| EP3253984B1|2015-02-06|2016-02-05|Disk brake comprising at least one spring for the elastic return of a brake pad, elastic return spring, and replacement kit|

---

DE16702963.6T| DE16702963T1|2015-02-06|2016-02-05|DISC BRAKE WITH AT LEAST ONE SPRING FOR THE ELASTIC RESETTING OF A BRAKE PAD, ELASTIC RESET SPRING AND REPLACEMENT KIT|

---

JP2017541703A| JP6900315B2|2015-02-06|2016-02-05|Disc brakes with at least one elastic return spring for brake pads, elastic return springs, and replacement kits|

---

US15/547,556| US10563716B2|2015-02-06|2016-02-05|Disk brake comprising at least one spring for the elastic return of a brake pad, elastic return spring, and replacement kit|

---

PCT/EP2016/052469| WO2016124728A1|2015-02-06|2016-02-05|Disk brake comprising at least one spring for the elastic return of a brake pad, elastic return spring, and replacement kit|

---

CN201680008172.0A| CN107208721B|2015-02-06|2016-02-05|Disk brake, elastic reset spring and replacement external member including at least one spring for being used to that brake block to be made to return elastically|