US2800982A - Brake rotor - Google Patents

Brake rotor Download PDF

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US2800982A
US2800982A US175443A US17544350A US2800982A US 2800982 A US2800982 A US 2800982A US 175443 A US175443 A US 175443A US 17544350 A US17544350 A US 17544350A US 2800982 A US2800982 A US 2800982A
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plate
plates
hub
rotor
web
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US175443A
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Robert B Cottrell
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American Steel Foundries
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American Steel Foundries
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D65/00Parts or details
    • F16D65/02Braking members; Mounting thereof
    • F16D65/12Discs; Drums for disc brakes
    • F16D65/128Discs; Drums for disc brakes characterised by means for cooling

Definitions

  • This invention relates to off-wheel brakes for railway rolling stock and more particularly to a novel brake rotor or disc.
  • the invention is embodied in a rotor comprising a two plate brake ring wherein one of the plates is formed integral with and as a continuation of a support hub for the rotor.
  • Brake rotors of this type are relatively inexpensive and convenient to manufacture but have generally proved unsatisfactory in service in that they rapidly develop cracks and fractures and have a short life.
  • the shoes at opposite sides of this rotor wear unevenly which is undesirable in that it accelerates the frequency of maintenance.
  • thermal cracks on the plates result at least in part from nonuniform distribution of heat in various zones of the plates and that the plates are generally much hotter at their central zones than at their inner or outer Zones. This is due to the fact that the heat developed on the central zones has had no special provision for escape inasmuch as the contiguous zones are also hot and conduction to these zones is thereby impeded. Also greatest heat concentrations develop at the center portions of the shoes engaging these central zones of the plates. It wil be understood that cognizance of these factors is important in view of the tremendous amount of energy developed in stopping a train and that the input into the rotor takes place in a few seconds.
  • a general object of the invention is to provide an inexpensive brake rotor which will perform efliciently and have long life in service.
  • a more specific object of the invention is to provide a two plate rotor of the type described wherein the parts are so arranged as to obtain a thermal balance at opposite sides of the rotor and across the entire extent of each plate and also arrange the connection between the hub and one of the plates in such a manner as to obtain a large web construction without resorting to critical shapes and convolutions such as would produce a poor crystalline structure.
  • the invention utilizes a construction of a large connecting Web between one plate of the brake ring and the hub and an arrangement of the connecting atent 'ice web in such manner that it merges at extremely fiat or broad agles with the hub and the one plate of the friction ring.
  • a large web construction of desirable crosssection is obtained by locating the hub outwardly of one side of the rotor and connecting it by the web to the plate at the opposite or far side of the rotor with respect to the hub.
  • a large connecting web construction is gained without resorting to the corrugated construction.
  • the greater length of metal in the connecting web 1 also aifords low stress thermal expansion and contraction.
  • the construction provides for certain vanes to interconnect the plates in such a manner as to obtain maximum heat radiation in the central zones of the plates and gradually decreased heat radiation as the inner and outer peripheries of the plates are approached.
  • This is obtained by thin vanes which are provided with V notches in their inner and outer ends.
  • the thin vanes thus become narrower and narrower as they approach the margins of the plates, whereas the intermediate portions extend across the entire space between the central zones of the two plates.
  • the greatest width of the .thin blades is in axial alignment with the central zones of the plates, thus providing maximum heat radiating areas at the central Zones of the plates, where most needed.
  • Figure 1 is a fragmentary reduced side elevational view of a brake rotor partly in section and embodying one form of the invention, the section being taken substantially on the lines 11 of Figure 3;
  • Figure 2 is an edge view of the rotor partly in axial cross-section and shown attached to an associated wheel, fragmentarily shown;
  • Figure 3 is an enlarged sectional view taken substantially on the line 33 of Figure l;
  • Figure 4 is a sectional view comparable to Figure 3 and illustrating a modification of the invention.
  • the brake rotor comprises a brake ring, generally indicated 4, and a support structure, generally indicated 6.
  • the brake ring comprises a pair of axially spaced generally parallel radially extending friction plates 8 and 10 which present substantially fiat friction surfaces 12 and 14 on their remote sides.
  • the plates 8 and 10 are interconnected on their adjacent sides by a plurality of relatively thick blades 16, 16, the blades 16 being substantially regularly spaced and extending lengthwise radially and widthwise axially of the rotor. The blades the friction shoes.
  • blades or vanes 20, 20 which are spaced at regular intervals between the blades 16, 16. It will be understood that theblades 16 are plrovide d to give the structure the necessary strength and that the vanes 20, 2t! serve as auxiliary braces, however, their principal function is to provide extensive surfaces for radiating heat which is generated in the plates 8 and 10 andto implement the blower action of the rotor.
  • V-shaped notches 22 and 24 in the radially outer and inner extremities of the vanes 29, 20. It will be seen that this arrangement provides a blade which widens gradually from the inner and outer peripheries ofeach plate to the center thereof. a The apex of each notch 22 and 24 is terminated at a point approximately one third of the distance inwardly of the associated vane. Thus each vane has its widest area in alignment with the central portions of the plates Sand 10, thereby providing maximum heat radiating surfaces for these areas of shortest distance thereto.
  • the brake ring 4 is connected at the radially inner edge of the plate 10 at a flat angle to the radially outer edge of a bell-shaped member or web 26 which forms part of the support 6.
  • the bell-shaped member extends through the brake ring 4 and merges at its radially inner end at a flat or broad angle into a hub 28 which extends outwardly of the brake ring on a side remote from the plate 10.
  • the hub is provided with a plurality of openings 30 through which extend bolts 32 which are threaded into a hub 34 of a wheel 36 which is positioned parallel to the brake ring, the inner side of the wheel facing the friction surface 12 of the friction plate 8.
  • connection between the hub and the Wheel is of conventional form, however, it will 'be observed that by connecting the hub 28 with the plate 10, which is on the far side of the brake ring with respect to the hub, the length of the member 26 is increased to the maximum and the web is a simple cross section extending generally diagonally from the outer periphery of the hub to the inner periphery of the plate 10 across the entire space in alignment with a fiuid chamber 38 defined between plates 8 and '10.
  • This increased length of metal in the member 26 over that which is conventional practice accommodates low stress expansion and contraction and provides'an increased heat radiating area and permits the shallow angle of connection without resorting to critical shapes.
  • the arrangement of the bell member 26 provides a fluid inlet passage 40 between the outer surface of the support 6 and the inner periphery I12v of plate 8, said inlet communicating with the chamber
  • the plate 10 is afforded a good heat conductance into the support6 which would normally j 38. It will be observed that the disposition of plate 8 adjacent to the inner surfaces of wheel 36 afiords a channel at 46 between friction surface 12 and the inner side of the wheel through which the air passes into the inlet 49 across the outer surface of the support and impelled by blades 16 and the vanes 20 radially outwardly through i the fluid chamber 38 defined between plates 8 and 10.
  • the brake rotor differs from that previously described in that all of the thick and thin blades are formed with a substantially semicircular recess or cutout 102 at their radially inner ends and are formed substantially flat at their outer ends.
  • the juncture between the inner edge of the member 26 and the hub 28 is offset in a gentle curve radially outwardly as at 164 in order to increase the radial thickness of the hub at said junction to provide increased thermal capacity in this area and to extend the web 26 slightly over that shown in the previous modification.
  • a unitary brake rotor for a railway car truck having a wheel and axle assembly, a brake ring having two generally parallel friction plates, said friction plates defining the outermost limits of the ring in axial direction and having brakingfriction surfaces on their outer sides, blades interconnecting said plates on their adjacent sides, a support within the ring comprising a hub extending from one side of the ring and having means for attachment to said wheel, and an annular bell-shaped member connected at its inner periphery to the hub and at its outer periphery to the friction plate on the side farthest away from the hub, said friction plates defining a fluid chamber therebetween having an outlet at the outer periphery of the ring and having an uninterrupted annular inlet defined between the external side of said bell-shaped member and the inner periphery of the plate adjacent to said hub and said wheel, said inlet having air channeled thereto between said wheel and the outer side of said last mentioned plate, whereby therlast mentioned plate is cooled on its external.
  • a unitary brake rotor comprising a brake ring including inner and outer spaced interconnected friction plates, said friction plates defining the outermost limits of the ring in axial direction and having braking friction surfaces on their outer sides, a support having a hub 1 adjacent the inner friction plate, and an annular integrally formed bell-shaped web interconnecting the outer periphery of the hub with the inner periphery of the outer friction plate wherein the inner plate is cooled on its external side as the air is drawn into the rotor and. on its internal side by the air passing between the plates of the rotor and whereby said outer plate is cooled on its interior side by the air blowing between the plates of the rotor and through conduction into the support whereby substantially balanced thermal characteristics are established in both ofsaid plates.
  • a unitary brake rotor for a railway car truck having a wheel and axle assembly comprising a ring, an inner and an outer annular plate relative to the wheel and spaced apart in axial direction, said plates. defining the outermost limits of the ring in axial direction and having braking friction surfaces on the outer sides, radial blades interconnecting the plates on their inner sides, and a support for the ring including a hub adjacent the plane of the outer surface of the inner plate for securement to the wheel, and a web integrally connected with the hub and extending therefrom through the inner plate in diverging, bell-shape fashion and integrally connected with the radially inner periphery of the outer ring, the web forming a broad angle with the hub and with the outer plate, and there being a smooth and uninterrupted surface from the hub, across the outer surface of the web and onto the inner surface of the outer plate, the plates defining a fluid chamber therebetween having an uninterrupted outlet at the outer periphery of the ring and an uninterrupted annular inlet between the outer surface of

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Braking Arrangements (AREA)

Description

July 30, 1957 R. B. COTTRELL BRAKE ROTOR Filed July 22, 1950 INVEN 0R.
P05611 '6' Jazz ite B ROTOR Application July 22, 1950, Serial No. 175,443
3 Claims. (Cl. 188218) This invention relates to off-wheel brakes for railway rolling stock and more particularly to a novel brake rotor or disc.
The invention is embodied in a rotor comprising a two plate brake ring wherein one of the plates is formed integral with and as a continuation of a support hub for the rotor. Brake rotors of this type are relatively inexpensive and convenient to manufacture but have generally proved unsatisfactory in service in that they rapidly develop cracks and fractures and have a short life. In addition, it has been found that the shoes at opposite sides of this rotor wear unevenly which is undesirable in that it accelerates the frequency of maintenance.
In previous arrangements the connecting web between the brake ring and the support hub was formed either too small or, to increase the area, the Web was made with sharp critical curves or corrugations which obtains a poor crystalline structure in the cast metal and develops planes of weakness which lead to early cracks. I have also found that as a rule the rotors heretofore made are thermally unbalanced at opposite sides. The plate directly connected to the hub is afforded a direct path for conducting heat into the hub which afiords large heat radiating surfaces for rapidly dissipating the intense heat. This results in higher heat concentration in the free plate, that is the one which has less area in that it is not directly united with the hub. This causes more rapid wearing away of the engaging shoe. I have further discovered that thermal cracks on the plates result at least in part from nonuniform distribution of heat in various zones of the plates and that the plates are generally much hotter at their central zones than at their inner or outer Zones. This is due to the fact that the heat developed on the central zones has had no special provision for escape inasmuch as the contiguous zones are also hot and conduction to these zones is thereby impeded. Also greatest heat concentrations develop at the center portions of the shoes engaging these central zones of the plates. It wil be understood that cognizance of these factors is important in view of the tremendous amount of energy developed in stopping a train and that the input into the rotor takes place in a few seconds.
A general object of the invention is to provide an inexpensive brake rotor which will perform efliciently and have long life in service.
A more specific object of the invention is to provide a two plate rotor of the type described wherein the parts are so arranged as to obtain a thermal balance at opposite sides of the rotor and across the entire extent of each plate and also arrange the connection between the hub and one of the plates in such a manner as to obtain a large web construction without resorting to critical shapes and convolutions such as would produce a poor crystalline structure.
More particularly, the invention utilizes a construction of a large connecting Web between one plate of the brake ring and the hub and an arrangement of the connecting atent 'ice web in such manner that it merges at extremely fiat or broad agles with the hub and the one plate of the friction ring. Thus favorable crystal formation of the metal is obtained. A large web construction of desirable crosssection is obtained by locating the hub outwardly of one side of the rotor and connecting it by the web to the plate at the opposite or far side of the rotor with respect to the hub. Thus, a large connecting web construction is gained without resorting to the corrugated construction. The greater length of metal in the connecting web 1 also aifords low stress thermal expansion and contraction.
By connecting the hub to the plate at the far side with respect to the wheel a further thermal balance is obtained. In operation the air is circulated between the outer side of the free plate, that is the one adjacent to the wheel,
and the inner side of the wheel and the air is drawn through the brake ring by blades interconnecting the plates and across the inner side of the free plate. At the same time this air passes across the large external side of the connecting web of the support and internal side of the plate connected to the web. Thus a more efiicient circulation of air is provided around the free plate to compensate for the increased capacity and heat radiating areas of the combined plate and web of the support.
The construction provides for certain vanes to interconnect the plates in such a manner as to obtain maximum heat radiation in the central zones of the plates and gradually decreased heat radiation as the inner and outer peripheries of the plates are approached. This is obtained by thin vanes which are provided with V notches in their inner and outer ends. The thin vanes thus become narrower and narrower as they approach the margins of the plates, whereas the intermediate portions extend across the entire space between the central zones of the two plates. Thus the greatest width of the .thin blades is in axial alignment with the central zones of the plates, thus providing maximum heat radiating areas at the central Zones of the plates, where most needed.
These and other objects of the invention will become more apparent from the specification and the drawings, wherein:
Figure 1 is a fragmentary reduced side elevational view of a brake rotor partly in section and embodying one form of the invention, the section being taken substantially on the lines 11 of Figure 3;
Figure 2 is an edge view of the rotor partly in axial cross-section and shown attached to an associated wheel, fragmentarily shown;
Figure 3 is an enlarged sectional view taken substantially on the line 33 of Figure l; and
Figure 4 is a sectional view comparable to Figure 3 and illustrating a modification of the invention.
Describing the invention in detail and referring first to the embodiment shown in Figures 1 to 3, the brake rotor, generally indicated 2, comprises a brake ring, generally indicated 4, and a support structure, generally indicated 6.
The brake ring comprises a pair of axially spaced generally parallel radially extending friction plates 8 and 10 which present substantially fiat friction surfaces 12 and 14 on their remote sides. The plates 8 and 10 are interconnected on their adjacent sides by a plurality of relatively thick blades 16, 16, the blades 16 being substantially regularly spaced and extending lengthwise radially and widthwise axially of the rotor. The blades the friction shoes.
blades or vanes 20, 20 which are spaced at regular intervals between the blades 16, 16. It will be understood that theblades 16 are plrovide d to give the structure the necessary strength and that the vanes 20, 2t! serve as auxiliary braces, however, their principal function is to provide extensive surfaces for radiating heat which is generated in the plates 8 and 10 andto implement the blower action of the rotor.
I have discovered as'heretofore stated that to obtain constant thermal characteristics across the full extent of each friction'plate from its inner, periphery to its outer periphery it is necessary to provide auxiliary heat radiatingsurfaces in the central areas of each plate to compensate forrthe heat radiating surfaces which are presented at the inner and outer peripheries of each plate for the inner and outer zones of each plate and also due to the restriction in the transmission of heat in the intermediate portions to the outer portions inasmuch as the outer portions are also heated through engagement with a The temperature gradient increases from the minimum at the inner periphery of each plate to a maximum in an intermediate area of each plate substantially in alignment with the center of an associated shoe which frictionally cooperates with the same and then the gradient drops again to the minimum at the outer periphcries of the plates.
To compensate for this, there are provided V- shaped notches 22 and 24 in the radially outer and inner extremities of the vanes 29, 20. It will be seen that this arrangement provides a blade which widens gradually from the inner and outer peripheries ofeach plate to the center thereof. a The apex of each notch 22 and 24 is terminated at a point approximately one third of the distance inwardly of the associated vane. Thus each vane has its widest area in alignment with the central portions of the plates Sand 10, thereby providing maximum heat radiating surfaces for these areas of shortest distance thereto.
The brake ring 4 is connected at the radially inner edge of the plate 10 at a flat angle to the radially outer edge of a bell-shaped member or web 26 which forms part of the support 6. The bell-shaped member extends through the brake ring 4 and merges at its radially inner end at a flat or broad angle into a hub 28 which extends outwardly of the brake ring on a side remote from the plate 10.
The hub is provided with a plurality of openings 30 through which extend bolts 32 which are threaded into a hub 34 of a wheel 36 which is positioned parallel to the brake ring, the inner side of the wheel facing the friction surface 12 of the friction plate 8.
It will be noted that the connection between the hub and the Wheel is of conventional form, however, it will 'be observed that by connecting the hub 28 with the plate 10, which is on the far side of the brake ring with respect to the hub, the length of the member 26 is increased to the maximum and the web is a simple cross section extending generally diagonally from the outer periphery of the hub to the inner periphery of the plate 10 across the entire space in alignment with a fiuid chamber 38 defined between plates 8 and '10. This increased length of metal in the member 26 over that which is conventional practice accommodates low stress expansion and contraction and provides'an increased heat radiating area and permits the shallow angle of connection without resorting to critical shapes.
cause the shoe engaging plate 10 to wear longer than the shoe engaging plate 8. To balance the thermal characteristics of plates 8 and 10 the arrangement of the bell member 26 provides a fluid inlet passage 40 between the outer surface of the support 6 and the inner periphery I12v of plate 8, said inlet communicating with the chamber As heretofore noted the plate 10 is afforded a good heat conductance into the support6 which would normally j 38. It will be observed that the disposition of plate 8 adjacent to the inner surfaces of wheel 36 afiords a channel at 46 between friction surface 12 and the inner side of the wheel through which the air passes into the inlet 49 across the outer surface of the support and impelled by blades 16 and the vanes 20 radially outwardly through i the fluid chamber 38 defined between plates 8 and 10. Thus it will be seen that provision is made to aiford' an efiicient heat radiation into the air for plate 8 by causing the air to circulate around plate 8 and an efiicient transfer of heat by conduction is provided for plate 10 to the support 6.
Referring now to the embodiment shown in .Figure 4 wherein parts identical with those shown in the previous embodiment are identified .by corresponding reference numerals. The brake rotor differs from that previously described in that all of the thick and thin blades are formed with a substantially semicircular recess or cutout 102 at their radially inner ends and are formed substantially flat at their outer ends. In addition the juncture between the inner edge of the member 26 and the hub 28 is offset in a gentle curve radially outwardly as at 164 in order to increase the radial thickness of the hub at said junction to provide increased thermal capacity in this area and to extend the web 26 slightly over that shown in the previous modification.
I claim:
1. A unitary brake rotor for a railway car truck having a wheel and axle assembly, a brake ring having two generally parallel friction plates, said friction plates defining the outermost limits of the ring in axial direction and having brakingfriction surfaces on their outer sides, blades interconnecting said plates on their adjacent sides, a support within the ring comprising a hub extending from one side of the ring and having means for attachment to said wheel, and an annular bell-shaped member connected at its inner periphery to the hub and at its outer periphery to the friction plate on the side farthest away from the hub, said friction plates defining a fluid chamber therebetween having an outlet at the outer periphery of the ring and having an uninterrupted annular inlet defined between the external side of said bell-shaped member and the inner periphery of the plate adjacent to said hub and said wheel, said inlet having air channeled thereto between said wheel and the outer side of said last mentioned plate, whereby therlast mentioned plate is cooled on its external. side as the air is drawn into the rotor and on the internal side by the air blowing through the chamber, and said plate remote from the hub being cooled by the air: blowing along its interior side in the chamber and through conduction into the support, whereby substantially balanced thermal characteristics are established in both of said plates.
2. A unitary brake rotor comprising a brake ring including inner and outer spaced interconnected friction plates, said friction plates defining the outermost limits of the ring in axial direction and having braking friction surfaces on their outer sides, a support having a hub 1 adjacent the inner friction plate, and an annular integrally formed bell-shaped web interconnecting the outer periphery of the hub with the inner periphery of the outer friction plate wherein the inner plate is cooled on its external side as the air is drawn into the rotor and. on its internal side by the air passing between the plates of the rotor and whereby said outer plate is cooled on its interior side by the air blowing between the plates of the rotor and through conduction into the support whereby substantially balanced thermal characteristics are established in both ofsaid plates. 7
3. A unitary brake rotor for a railway car truck having a wheel and axle assembly comprising a ring, an inner and an outer annular plate relative to the wheel and spaced apart in axial direction, said plates. defining the outermost limits of the ring in axial direction and having braking friction surfaces on the outer sides, radial blades interconnecting the plates on their inner sides, and a support for the ring including a hub adjacent the plane of the outer surface of the inner plate for securement to the wheel, and a web integrally connected with the hub and extending therefrom through the inner plate in diverging, bell-shape fashion and integrally connected with the radially inner periphery of the outer ring, the web forming a broad angle with the hub and with the outer plate, and there being a smooth and uninterrupted surface from the hub, across the outer surface of the web and onto the inner surface of the outer plate, the plates defining a fluid chamber therebetween having an uninterrupted outlet at the outer periphery of the ring and an uninterrupted annular inlet between the outer surface of the web and the inner periphery of the inner plate.
References Cited in the file of this patent UNITED STATES PATENTS Armstrong Feb. 16, 1926 Eksergian Sept. 17, 1940 Eksergian Mar. 4, 1941 Eksergian Sept. 2, 1941 Eksergian Sept. 2, 1941 Heater Feb. 6, 1945 Tack et a1 July 10, 1945 Eksergian Jan. 15, 1946 Baselt Oct. 19, 1948 Kelley Feb. 26, 1952 FOREIGN PATENTS France Dec. 17, 1947
US175443A 1950-07-22 1950-07-22 Brake rotor Expired - Lifetime US2800982A (en)

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1164455B (en) * 1959-08-29 1964-03-05 Nikolaus Laing Double-walled brake disc for a vehicle brake, in particular a rail vehicle brake
US3378114A (en) * 1966-08-17 1968-04-16 Girling Ltd Discs for disc brakes
US3393775A (en) * 1963-08-20 1968-07-23 Girling Ltd Discs for disc brakes
US3491860A (en) * 1968-03-22 1970-01-27 Goodyear Tire & Rubber Brake disc with yieldable register
DE3335807A1 (en) * 1983-10-01 1985-04-18 Schwäbische Hüttenwerke GmbH, 7080 Aalen BRAKE DISC AND MOLDING CORE FOR THE PRODUCTION OF SUCH A BRAKE DISC
US5429214A (en) * 1990-12-18 1995-07-04 Bergische Stahl-Industrie Ventilated brake disc with transverse recesses in radially extending ribs
US20070107999A1 (en) * 2005-11-15 2007-05-17 Masatoshi Kano Ventilated disk rotor and method of manufacturing the same
EP2107266A1 (en) 2008-04-01 2009-10-07 Lucas Automotive Gmbh Brake disk and disk brake
US20100258394A1 (en) * 2009-04-08 2010-10-14 Gm Global Technology Operations, Inc. Brake rotor with intermediate portion
US9506515B2 (en) 2013-07-19 2016-11-29 Hendrickson Usa, L.L.C. Disc brake rotor for heavy-duty vehicles
WO2021225613A1 (en) * 2020-05-05 2021-11-11 Consolidated Metco, Inc. Commercial vehicle brake rotor

Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1572870A (en) * 1924-01-14 1926-02-16 Erie Steam Shovel Company Clutch
US2215420A (en) * 1939-03-17 1940-09-17 Budd Wheel Co Annular brake structure
US2233594A (en) * 1939-05-31 1941-03-04 Budd Wheel Co Brake disk
US2255024A (en) * 1940-02-28 1941-09-02 Budd Wheel Co Brake element
US2255023A (en) * 1939-05-31 1941-09-02 Budd Wheel Co Brake disk assembly
US2368985A (en) * 1943-10-13 1945-02-06 American Steel Foundries Brake rotor
US2380085A (en) * 1942-12-12 1945-07-10 American Steel Foundries Rotor
US2393032A (en) * 1943-11-08 1946-01-15 Budd Wheel Co Rail car wheel brake
FR933272A (en) * 1945-09-05 1948-04-15 Vevey Atel Const Mec Multiple disc brake for motor vehicle
US2451709A (en) * 1944-01-01 1948-10-19 American Steel Foundries Cooled brake rotor
US2587047A (en) * 1950-04-27 1952-02-26 Westinghouse Air Brake Co Rotor for disk brakes

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1572870A (en) * 1924-01-14 1926-02-16 Erie Steam Shovel Company Clutch
US2215420A (en) * 1939-03-17 1940-09-17 Budd Wheel Co Annular brake structure
US2233594A (en) * 1939-05-31 1941-03-04 Budd Wheel Co Brake disk
US2255023A (en) * 1939-05-31 1941-09-02 Budd Wheel Co Brake disk assembly
US2255024A (en) * 1940-02-28 1941-09-02 Budd Wheel Co Brake element
US2380085A (en) * 1942-12-12 1945-07-10 American Steel Foundries Rotor
US2368985A (en) * 1943-10-13 1945-02-06 American Steel Foundries Brake rotor
US2393032A (en) * 1943-11-08 1946-01-15 Budd Wheel Co Rail car wheel brake
US2451709A (en) * 1944-01-01 1948-10-19 American Steel Foundries Cooled brake rotor
FR933272A (en) * 1945-09-05 1948-04-15 Vevey Atel Const Mec Multiple disc brake for motor vehicle
US2587047A (en) * 1950-04-27 1952-02-26 Westinghouse Air Brake Co Rotor for disk brakes

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1164455B (en) * 1959-08-29 1964-03-05 Nikolaus Laing Double-walled brake disc for a vehicle brake, in particular a rail vehicle brake
US3393775A (en) * 1963-08-20 1968-07-23 Girling Ltd Discs for disc brakes
US3378114A (en) * 1966-08-17 1968-04-16 Girling Ltd Discs for disc brakes
US3491860A (en) * 1968-03-22 1970-01-27 Goodyear Tire & Rubber Brake disc with yieldable register
DE3335807A1 (en) * 1983-10-01 1985-04-18 Schwäbische Hüttenwerke GmbH, 7080 Aalen BRAKE DISC AND MOLDING CORE FOR THE PRODUCTION OF SUCH A BRAKE DISC
US5429214A (en) * 1990-12-18 1995-07-04 Bergische Stahl-Industrie Ventilated brake disc with transverse recesses in radially extending ribs
US20070107999A1 (en) * 2005-11-15 2007-05-17 Masatoshi Kano Ventilated disk rotor and method of manufacturing the same
EP2107266A1 (en) 2008-04-01 2009-10-07 Lucas Automotive Gmbh Brake disk and disk brake
US20110100774A1 (en) * 2008-04-01 2011-05-05 Ulrich Seuser Brake Disc and Disc Brake
US8925693B2 (en) 2008-04-01 2015-01-06 Lucas Automotive Gmbh Brake disc and disc brake
US20100258394A1 (en) * 2009-04-08 2010-10-14 Gm Global Technology Operations, Inc. Brake rotor with intermediate portion
US9127734B2 (en) * 2009-04-08 2015-09-08 GM Global Technology Operations LLC Brake rotor with intermediate portion
US9506515B2 (en) 2013-07-19 2016-11-29 Hendrickson Usa, L.L.C. Disc brake rotor for heavy-duty vehicles
WO2021225613A1 (en) * 2020-05-05 2021-11-11 Consolidated Metco, Inc. Commercial vehicle brake rotor

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