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A gearbox having an integral wet brake assembly is provided to replace the prior gearbox assembly of an underground mining machine. The brake housing is configured and contoured to be nestingly received upon the gearbox housing and without intrusion upon the output drive flanges. The brake housing

A gearbox having an integral wet brake assembly is provided to replace the prior gearbox assembly of an underground mining machine. The brake housing is configured and contoured to be nestingly received upon the gearbox housing and without intrusion upon the output drive flanges. The brake housing includes concentric parking and service brake pistons adapted to engage and disengage a brake disc stack provided within a cavity machined into an end plate of the gear box assembly. An intermediate shaft of the gearbox is provided with a hub to engage the rotary discs of the brake disc stack. The parking brake is normally engaged by a spring and released by hydraulic pressure, while the service brake is normally released by a spring and engaged by hydraulic pressure.

대표청구항 ▼

What is claimed is: 1. In a central gearbox for underground mining machinery, the central gearbox driving and braking all of the driven wheels of the machinery, the central gearbox having a gearbox housing and a motor driven pinion driving a two stage helical gear parallel shaft reduction comprisin

What is claimed is: 1. In a central gearbox for underground mining machinery, the central gearbox driving and braking all of the driven wheels of the machinery, the central gearbox having a gearbox housing and a motor driven pinion driving a two stage helical gear parallel shaft reduction comprising a first intermediate shaft and a second output shaft, the output shaft having an output hub thereon, the improvement of a brake, comprising: a brake housing secured to the gearbox housing and forming a cavity therewith, said cavity receiving an end of the intermediate shaft; at least one brake disc received by the end of the intermediate shaft within said cavity; and a first brake piston received within said cavity in selective operative engagement with said brake disc to inhibit rotation of the intermediate shaft. 2. The improvement in a gearbox according to claim 1, further comprising a second brake piston, received within said cavity and concentric with said first brake piston, in selective operative engagement with said brake disc to inhibit rotation of the intermediate shaft. 3. The improvement in a gearbox according to claim 2, wherein said first brake piston is urged toward engagement with said brake disc by a spring. 4. The improvement in a gearbox according to claim 3, wherein said first brake piston is urged from engagement with said brake disc by hydraulic pressure introduced into a return cavity between said brake housing and said first brake piston. 5. The improvement in a gearbox according to claim 2, wherein said second brake piston is urged into engagement with said brake disk by hydraulic pressure introduced into an application cavity between said brake housing and said second brake piston. 6. The improvement in a gearbox according to claim 5, further comprising a return spring in operative engagement with said second brake piston and urging said second brake piston out of engagement with said brake disc. 7. The improvement in a gearbox according to claim 2, wherein said brake disc is a part of a disc stack having rotors operatively connected to the intermediate shaft, and stators operatively connected to said brake housing. 8. The improvement in a gearbox according to claim 7, wherein said stator comprises an annular disc having ears extending from an outer circumferential surface thereof, said ears having apertures for receiving pins for operatively securing said stator to said brake housing. 9. The improvement in a gearbox according to claim 7, wherein said disc stack is maintained in a fluid bath, comprising a wet brake, said brake housing being sealed against said end plate and said first brake piston and said second brake piston being sealed against said brake housing. 10. The improvement in a gearbox according to claim 7, wherein said brake housing comprises an outer annular shell receiving a central hub sealed and secured thereto. 11. The improvement in a gearbox according to claim 10, wherein said brake housing has a relief area receiving the output hub. 12. A method for adapting a wet brake to the intermediate shaft of a gearbox for underground mining machinery, the central gearbox driving and braking all of the driven wheels of the machinery, the central gearbox having a gearbox housing and a motor driven pinion input driving a two stage helical gear parallel shaft reduction comprising the first intermediate shaft and a second output shaft, the output shaft having an output hub thereon, the method comprising the steps of: (a) forming a brake cavity between the gearbox housing and a brake housing; (b) providing a brake disc stack within said brake cavity; (c) providing at least one actuating piston in said brake cavity; (d) operatively interconnecting said brake disc stack between said brake housing and said intermediate shaft within said brake cavity; and (e) sealingly securing said brake housing to the gearbox housing to effect operative engagement between said brake disc stack and said actuating piston. 13. The method according to claim 12, wherein said brake housing is configured asymmetrically to receive the output hub of the output shaft. 14. The method according to claim 12, wherein said step of providing at least one actuating piston comprises the provision of a parking brake piston and a service brake piston concentrically received within said brake cavity. 15. The method according to claim 14, further comprising the step of providing a first spring within said brake cavity in contacting engagement with said parking brake piston and urging said parking brake piston toward said brake disc stack. 16. The method according to claim 15, further comprising the step of configuring a hydraulic return cavity between said parking brake piston and said brake housing. 17. The method according to claim 16, further comprising the step of configuring a hydraulic actuating cavity between said service brake piston and said brake housing. 18. The method according to claim 17, further comprising the step of providing a return spring within the gearbox housing and in operative engagement with said brake disc stack. 19. The method according to claim 18, wherein said brake cavity is formed by forming a first cavity in the gearbox housing and a second cavity in the brake housing, said first and second cavities being in alignment when the brake housing is sealingly secure to the gearbox housing. 20. The method according to claim 12 further comprising the step of providing intermediate shaft splines for receiving said brake disc stack.