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VEHICLE DISC BRAKE

20220325763 · 2022-10-13

    Inventors

    Cpc classification

    International classification

    Abstract

    A pad for disc brakes for railway vehicles comprising a base plate (2), a plurality of friction elements fixed to the base plate and a plurality of spacers, each of which is mounted between the base plate and a respective friction element. In each one of the spacers at least one fixing hole is obtained, which is engaged by a respective rivet suited to lock the friction element to the base plate. Each one of the spacers consists of a plurality of metal plaques, each having a fixing hole obtained in it. The metal plaques are stacked on top of one another so that the respective fixing holes coincide.

    Claims

    1. A pad for disc brakes comprising: a base plate; a plurality of friction elements fixed to the base plate; and a plurality of spacers, each of the spacers mounted between the base plate and a respective friction element of the friction elements, each of the spacers including at least a first fixing hole configured to be engaged by a rivet to lock the respective friction element to the base plate, each of the spacers including a plurality of metal plaques, each of the metal plaques having a second fixing hole, the metal plaques stacked on top of one another so that the second fixing holes coincide with each other, each of the metal plaques between 0.1 and 1 millimeter (mm) thick.

    2. The pad of claim 1, wherein each of the spacers includes between two and seven of the metal plaques.

    3. The pad of claim 1, wherein the metal plaques are made of one or more of iron, copper, or an alloy thereof.

    4. The pad of claim 1, wherein the metal plaques are made of one or more of brass or bronze.

    5. The pad of claim 1, wherein each of the friction elements is associated with a single one of the spacers.

    6. The pad of claim 1, wherein each of the friction elements is associated with a pair of the spacers.

    7. The pad of claim 1, wherein the pad is configured for use in a disc brake for a medium or low speed railway vehicle.

    8. A disc brake pad comprising: a base plate; friction elements fixed to the base plate; and spacers mounted between the base plate and the friction elements, the spacers including first fixing holes positioned to be engaged by a rivet, the spacers including plaques having second fixing holes, the plaques stacked on top of one another with the second fixing holes aligned with each other.

    9. The disc brake pad of claim 8, wherein each of the metal plaques is between 0.1 and 1 millimeter (mm) thick.

    10. The disc brake pad of claim 8, wherein each of the spacers includes between two and seven of the metal plaques.

    11. The disc brake pad of claim 8, wherein the metal plaques include one or more of iron, copper, brass, or bronze.

    12. The disc brake pad of claim 8, wherein each of the friction elements is associated with a single one of the spacers.

    13. The disc brake pad of claim 8, wherein each of the friction elements is associated with at least a pair of the spacers.

    14. The disc brake pad of claim 8, wherein the disc brake pad is configured for use in a railway vehicle.

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0020] For a better understanding of the invention, two embodiments are included below, merely by way of non-limiting example, with the aid of the attached drawings, wherein:

    [0021] FIG. 1 is a view from above, with transparent parts for clarity, of a first embodiment of the pad that is the object of this invention;

    [0022] FIG. 2 is a cross-section along the line A-A of FIG. 1;

    [0023] FIG. 3 is a plan view of the spacer of the pad in FIG. 1;

    [0024] FIG. 4 is a view from above, with transparent parts for clarity, of a second embodiment of the pad that is the object of this invention;

    [0025] FIG. 5 is a lateral cross-section along the line A-A of FIG. 4;

    [0026] FIG. 6 is a plan view of the spacer of the pad in FIG. 4;

    [0027] FIG. 7 is a graph of the noise measurement of the pad in FIG. 1 in a first braking condition;

    [0028] FIG. 8 is a graph of the noise measurement of a comparison pad according to the operating conditions in FIG. 7;

    [0029] FIG. 9 is a graph of the noise measurement of the pad in FIG. 1 in a second braking condition;

    [0030] FIG. 10 is a graph of the noise measurement of a comparison pad according to the operating conditions in FIG. 9.

    BEST MODE FOR CARRYING OUT THE INVENTION

    [0031] In FIG. 1, the reference number 1 indicates, as a whole, a pad for disc brakes according to this invention.

    [0032] The pad 1 comprises a base plate 2, a dovetail attachment 3 attached to a rear surface of the base plate 2 and designed to attach the pad 1 itself to a structure of the disc brake and multiple friction elements 4 attached to the base plate 2 and arranged so as to exert pressure on the brake disc to perform the braking action.

    [0033] For the purposes of this invention, it is irrelevant whether the friction elements 4 may be attached to the plate 2 temporarily or permanently.

    [0034] As is more clearly visible in FIG. 2, each of the friction elements 4 comprises a metal support 5 and a friction insert 6 permanently fixed to the metal support 5.

    [0035] Each of the friction elements 4 is fixed to the base plate 2 via the action of two rivets 7, each of which passes through a respective fixing hole 5a formed in the metal support 5 and a respective fixing hole 2a made in the base plate 2.

    [0036] The pad 1 comprises multiple spacers 8, each of which is positioned between a respective metal support 5 and the base plate 2 (FIG. 2). As is clearly visible in FIG. 3, each of the spacers 8 is basically trapezoidal in shape and has two fixing holes 8a, each of which is apt to be engaged by a respective rivet 7. From FIG. 2, it is clear how a single friction element is paired with a single spacer 8.

    [0037] As illustrated in FIG. 2, each of the spacers 8, consists of four metal plaques 9 of brass stacked on top of each other. Each of the metal plaques 9 has the shape displayed in FIG. 3 and is 0.5 mm thick, thus meaning that the spacer as a whole is 2 mm thick.

    [0038] The pad described above was subjected to a noise test, according to a chassis dynamometer simulation procedure of a typical trip for a metropolitan vehicle, with no load. The no-load condition mentioned is the most critical in terms of noise.

    The test was carried out by applying two different braking conditions, in order to verify whether the advantages could be reproduced by applying different forces.

    [0039] The two tests were repeated in the same conditions with a comparison pad, which only differed from the invention pad due to the fact that the spacers in FIG. 3 are made of a single piece with a thickness of 2 mm.

    [0040] FIGS. 7-10 display the noise values expressed in decibels produced by the pads as a function of the braking action time. In particular, the noises were selected as a function of the frequencies, respectively, of 1000 Hz, 1250 Hz, 1600 Hz, 2000 Hz, 2500 Hz, 3150 Hz, and 4000 Hz. In this way, the frequencies to which the human ear is most sensitive were measured.

    [0041] The graph in FIGS. 7 and 8 relate to braking noise measurements made by applying a force of 15 KN; while the graphs in FIGS. 9 and 10 relate to braking noise measurements made by applying a force of 36 KN.

    [0042] The graph in FIG. 7 (measurements with the invention pad—application force of 15 KN) shows that the noise relating to the frequencies considered is practically kept below 80 decibels for the first 40 seconds from the start of the braking action before rising, but only for certain frequencies, up to 100 decibels in the subsequent 10 seconds. On the other hand, the graph in FIG. 8 (measurements with the comparison pad—application force of 15 KN) shows how the noise relating to some of the frequencies considered reaches values around 100 decibels already after just 10 seconds, before increasing further in the remaining 40 seconds.

    [0043] The graph in FIG. 9 (measurements with the invention pad—application force of 36 KN) shows that the noise relating to the frequencies considered is basically kept constant and around 80-70 decibels up to 15 seconds after the start of the braking action, before increasing in the subsequent 5 seconds without reaching 100 decibels. On the other hand, the graph in FIG. 10 (comparison pad—application force of 36 KN) shows how the noise relating to some of the frequencies considered reaches values around 90 decibels immediately after the start of the braking action, before increasing in the last 5 seconds up to values above 100 decibels.

    [0044] To summarise, from a comparison of the graphs in FIGS. 7 and 8 and the graphs in FIGS. 9 and 10, it is clearly seen how the pad of this invention produces less noise than the comparison pads.

    [0045] In FIG. 4, the reference number 11 indicates, as a whole, a pad for disc brakes according to an additional embodiment of this invention.

    [0046] The parts of the second pad 11, which are the same as those of the first pad 1, will be designated with the same numbering and will not be described again.

    [0047] The second pad 11 only differs from the first pad 1 in relation to the spacers used.

    [0048] In fact, while in the first pad 1 a single spacer 8 is paired with each friction element 4, in the second pad 11, a pair of spacers 12 (FIGS. 4 and 5) is paired with each friction element 4.

    [0049] As is clearly shown in FIG. 6, in each of the spacers 12, there is a single fixing hole 12a, which is designed to be engaged by a respective rivet 7. Each of the spacers 12 comprises a central, circular portion 13, in which the fixing hole 12a is formed, four arms 14 extending in a cross from the central portion 13.

    [0050] As illustrated in FIG. 5, each of the spacers 12 consists of four metal plaques 15 of brass that have the same shape and are stacked on top of each other. Each of the metal plaques 15 is 0.5 mm thick, thus meaning that the spacer as a whole is 2 mm thick.

    [0051] The second pad 11 was subject to the same noise tests described above. The results obtained were compared with the same tests carried out using a comparison pad, which only differs from the second pad 11 due to the fact that it uses spacers of the same shape as the spacers 12 but made of a single piece, which is 2 mm thick. The results obtained were basically the same as those presented in FIGS. 7-10, thus confirming that the replacement of a spacer made of a single piece with a spacer made with multiple stacked plaques entails a significant decrease in the noise produced during braking.

    [0052] As may seem clear to a person skilled in the art, the solution relating to this invention cannot technically entail a decrease neither in terms of braking efficacy nor in terms of fine dust produced.

    [0053] To summarise, this invention consists of pads for disc brakes comprising spacers consisting of multiple metal plaques stacked on top of each other. In this way, it was, surprisingly, found that there was a reduction in noise produced during braking, without, for this reason, reducing the efficacy of the braking or increasing the production of fine dust.