A system for agricultural operations is provided in which an applicator may be attached to chassis using a ball and socket configuration. The ball and socket configuration allows for a faster and more convenient way to change between applicators than previously known for such applications. Also, the
A system for agricultural operations is provided in which an applicator may be attached to chassis using a ball and socket configuration. The ball and socket configuration allows for a faster and more convenient way to change between applicators than previously known for such applications. Also, the ball and socket configuration provides a semi-rigid mount which may allow for improved handling of forces between the chassis and the applicator as the chassis traverses through rough agricultural terrain.
대표청구항▼
1. A self-propelled agricultural machine comprising: a chassis assembly having: a frame supported by a plurality of wheels;an operator cab supported by the frame;an engine supported by the frame; anda plurality of coupler balls mounted to the frame; anda detachable agricultural applicator assembly i
1. A self-propelled agricultural machine comprising: a chassis assembly having: a frame supported by a plurality of wheels;an operator cab supported by the frame;an engine supported by the frame; anda plurality of coupler balls mounted to the frame; anda detachable agricultural applicator assembly including a plurality of sockets, each socket being configured to receive a coupler ball, and each socket including a locking assembly,wherein the sockets are configured to lock the coupler balls to the detachable agricultural applicator assembly by moving the locking assembly into a first position operable to trap the coupler balls, andwherein the sockets are configured to release the coupler balls from the detachable agricultural applicator assembly by moving the locking assembly into a second position operable to release the coupler balls. 2. The self-propelled agricultural machine of claim 1, wherein the chassis assembly provides at least three coupler balls. 3. The self-propelled agricultural machine of claim 1, wherein the coupler balls are spaced apart by unequal distances. 4. The self-propelled agricultural machine of claim 1, wherein each locking assembly includes a plate configured to pivot below a portion of a coupler ball in the first position. 5. The self-propelled agricultural machine of claim 4, wherein each locking assembly further includes an arm in communication with the plate, wherein each plate is configured to pivot upon movement of the arm. 6. The self-propelled agricultural machine of claim 5, wherein arms of each locking assembly are in communication with one another to allow plates of each locking assembly to pivot upon a single movement. 7. The self-propelled agricultural machine of claim 1, wherein each locking assembly includes a sensor operable to detect at least one of the first and second positions. 8. The self-propelled agricultural machine of claim 1, wherein the detachable agricultural applicator assembly includes at least one of a storage tank, a sprayer and an application system. 9. The self-propelled agricultural machine of claim 1, wherein the detachable agricultural applicator includes at least one storage tank and an air application system for distributing granular particles. 10. The self-propelled agricultural machine of claim 1, wherein the detachable agricultural applicator assembly includes at least one storage tank and a spinner for distributing granular particles. 11. A self-propelled agricultural machine comprising: a chassis assembly having: a frame supported by a plurality of wheels;an operator cab supported by the frame;an engine supported by the frame; andfirst, second and third coupler balls mounted to the frame; anda detachable agricultural applicator assembly including first, second and third sockets, each socket being configured to receive a coupler ball, and each socket including a locking assembly,wherein the first, second and third sockets are configured to lock the first, second and third coupler balls, respectively, to the detachable agricultural applicator assembly by moving the locking assembly into a first position operable to trap the first, second and third coupler balls, andwherein the first, second and third sockets are configured to release the first, second and third coupler balls, respectively, from the detachable agricultural applicator assembly by moving the locking assembly into a second position operable to release the first, second and third coupler balls. 12. The self-propelled agricultural machine of claim 11, wherein the first, second and third coupler balls are spaced apart by unequal distances. 13. The self-propelled agricultural machine of claim 11, wherein each locking assembly includes a plate configured to pivot below a portion of a coupler ball in the first position. 14. The self-propelled agricultural machine of claim 13, wherein each locking assembly further includes an arm in communication with the plate, wherein each plate is configured to pivot upon movement of the arm. 15. The self-propelled agricultural machine of claim 14, wherein arms of each locking assembly are in communication with one another to allow plates of each locking assembly to pivot upon a single movement. 16. The self-propelled agricultural machine of claim 11, wherein each locking assembly includes a sensor operable to detect at least one of the first and second positions. 17. A self-propelled agricultural machine comprising: a detachable agricultural applicator assembly including a plurality of coupler balls; anda chassis assembly having: a frame supported by a plurality of wheels;an operator cab supported by the frame;an engine supported by the frame; anda plurality of sockets in the frame,wherein each socket is configured to receive a coupler ball, and each socket includes a locking assembly,wherein the sockets are configured to lock the coupler balls to the chassis assembly by moving the locking assembly into a first position operable to trap the coupler balls, andwherein the sockets are configured to release the coupler balls from the chassis assembly by moving the locking assembly into a second position operable to release the coupler balls. 18. The self-propelled agricultural machine of claim 17, wherein the detachable agricultural applicator assembly provides at least three coupler balls. 19. The self-propelled agricultural machine of claim 17, wherein the coupler balls are spaced apart by unequal distances.
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이 특허에 인용된 특허 (11)
Ballu Patrick J. (Reims FRX), Apparatus for treating soil or vegetation, comprising a boom which can pivot in relation to longitudinal and transverse.
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