Claims
- 1. A brake system for retarding at least one rotating member, said brake system comprising:
- (a) an actuator means having a first portion and a second portion, said first portion and said second portion having a degree of freedom for a relative motion, said actuator means providing a relative force between said first portion and said second portion, said relative force for causing said relative motion, said actuator means having means for connection to an energization means, such energization means for supplying energy to said actuator means;
- (b) an actuator means lever having three pivot connections, a first of said three pivot connections pivotally connected to said second portion of said actuator means, said first of said three pivot connections for receiving an actuator force from said actuator means;
- (c) a pair of brakebeams, a first one of said pair of brakebeams having a first pivot connection pivotally connected to a second one of said three pivot connections of said actuator means lever to receive a first brakebeam force from said actuator means lever, said first portion of said actuator means connected to said first one of said pair of brakebeams;
- (d) a first reaction means pivotally connected to a third one of said three pivot connections of said actuator means lever to receive a first reaction force from said actuator means lever;
- (e) an equalizer lever having three pivot connections, a first of said three pivot connections of said equalizer lever pivotally connected to said first reaction means to receive said first reaction force from said first reaction means, a second of said three pivot connections of said equalizer lever pivotally connected to a first pivot connection on a second one of said pair of brakebeams to provide a second brakebeam force to said second one of said pair of brakebeams;
- (f) a second reaction means pivotally connected to a third one of said three pivot connections of said equalizer lever to receive a second reaction force from said equalizer lever, said second reaction means connected to at least one of said first brakebeam and said first portion of said actuator means;
- (g) each of said pair of brakebeams having a first end portion and a second end portion, said first end portion and said second end portion each having at least three pivot connections, a first pivot connection for a pivot having an axis about parallel to a longitudinal axis of the brakebeam, a second pivot connection for a pivot having an axis about parallel to a longitudinal axis of the brakebeam and a third pivot connection for a pivot having an axis about perpendicular to a longitudinal axis of the brakebeam;
- (h) for each of said end portions of each of said brakebeams, a proportionalization lever having a proportionalization lever pivot connection, said proportionalization lever pivot connection pivotally connected to said third pivot connection of said end portion of said brakebeam for receiving a first force from said brakebeam, said proportionalization lever having a first force delivery means at a first end of said proportionalization lever and a second force delivery means at a second end of said proportionalization lever;
- (i) for each of said end portions of each of said brakebeams, a first brake hanger pivotally connected to said first pivot connection of said end portion of said brakebeam for pivotal rotation about an axis of said first pivot connection, said first brake hanger having a first means for receiving force from said first force delivery means of said proportionalization lever;
- (j) a first brake shoe attached to said first brake hanger, said first brake shoe for forceful application to at least one rotating member to retard such at least one rotating member;
- (k) for each of said end portions of each of said brakebeams, a second brake hanger pivotally connected to said second pivot connection of said end portion of said brakebeam for pivotal rotation about an axis of said second pivot connection, said second brake hanger having a second means for receiving force from said second force delivery means of said proportionalization lever; and
- (l) a second brake shoe attached to said second brake hanger, said second brake shoe for forceful application to such at least one rotating member to retard such at least one rotating member.
- 2. A brake system according to claim 1 herein said actuator means includes a cylinder and a piston, said piston driven by a fluid disposed within said cylinder, a pressure of such fluid controlled by such energization means.
- 3. A brake system according to claim 2 wherein said cylinder is a pneumatic cylinder and such fluid is compressed air.
- 4. A brake system according to claim 1 wherein such at least one rotating member includes two wheels mounted on an axle, said brake system including a first disc attached coaxially to such rotating member adjacent a first of such two wheels and a second disc attached coaxially to such rotating member adjacent a second of such two wheels, at least one of said pair of brakebeams disposed so that such first wheel and said first disc are adjacent a first end of said at least one of said pair of brakebeams and such second wheel and said second disc are adjacent a second end of said at least one of said pair of brakebeams.
- 5. A brake system according to claim 4 wherein for each of said end portions of at least one of said pair of brakebeams, said second brake shoe is applied to an adjacent one of such two wheels.
- 6. A brake system according to claim 4 wherein for each of said end portions of said pair of brakebeams, said first brake shoe is applied to an adjacent one of said two discs.
- 7. A brake system according to claim 6 wherein for each of said end portions of at least one of said pair of brakebeams, said first brake shoe is applied to a rim portion of said adjacent one of said two discs.
- 8. A brake system according to claim 7 wherein said rim portion of each of said two discs has a pair of axisymmetric friction surfaces sloped in opposition to each other with an opening therebetween.
- 9. A brake system according to claim 8 wherein for each of said two discs, said pair of axisymmetric friction surfaces are formed as a circumferential ridge with an opening along its apex.
- 10. A brake system according to claim 9 wherein each of said two discs has at least one air passage connected to said opening.
- 11. A brake system according to claim 10 wherein for each of said two discs, said at least one air passage provides for radial air flow for cooling said disc.
- 12. A brake system according to claim 9 wherein for each of said end portions of said pair of brakebeams, said first brake shoe is applied to said pair of axisymmetric friction surfaces.
- 13. A brake system according to claim 12 wherein for each of said end portions of at least one of said pair of brakebeams, said first brake shoe has a pair of brakepads formed as a groove with bottom and central portions missing, said brakepads for forcible application to said pair of axisymmetric friction surfaces.
- 14. A brake system according to claim 4 wherein such rotating member is a wheel and axle assembly for a railway vehicle.
- 15. A brake system according to claim 14 wherein said second brake shoe is applied to a tread of such wheel.
- 16. A brake system according to claim 14 wherein said first brakebeam and said second brakebeam are disposed on opposite sides of a bolster of such railway vehicle.
- 17. A brake system according to claim 16 wherein at least one of said reaction means is a reaction rod.
- 18. A brake system according to claim 17 wherein said reaction rod passes through an opening in said bolster.
- 19. A brake system according to claim 1 wherein at least one of said reaction means includes a slack adjuster means, said slack adjuster means for adjusting an effective length of said reaction means.
- 20. A brake system according to claim 1 further including an emergency brake, said emergency brake connected to forcefully engage said at least one of said first brake shoe and said second brake shoe with such rotating member to prevent rotation of such rotating member.
CROSS REFERENCE TO RELATED APPLICATIONS
The invention taught in this patent application is closely related to the inventions taught in the following patent applications: Offset Arrangement for Brake System, Proportionalization Lever, U.S. Ser. No. 08/748,241, now U.S. Pat. No. 5,806,634 Cooling Spoke Arrangement For A Brake Disc, U.S. Ser. No. 08/745,429 now U.S. Pat. No. 5,826,685, Wedge-Shaped Disc Brake and Shoe, U.S. Ser. No. 08/748,200. The referenced patent applications were filed concurrently with the present application on Nov. 12, 1996 and have been assigned to the assignee of the present invention. The teachings of the referenced patent applications are incorporated into the present application by reference thereto.
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