Claims
- 1. An oscillating sprinkler transmission having an output year, said output year having an axis, a gear cage with two drive gears, a first drive gear and a second drive gear for alternate driving engagement with said output gear to oscillate it, said gear cage having an idler gear in engagement with said first drive gear, said second drive gear and said idler gear being spaced apart, an input gear located between said second drive gear and said idler gear, said gear cage being mounted for pivotal movement around the axis of said outout gear, means for pivoting said gear cage to bring one of said second drive gear and said idler gear into engagement with said input gear to drive said output gear in either direction wherein the driving reaction force on the gear cage holds the gear cage in driving engagement with the input gear in either driving direction.
- 2. An oscillating sprinkler transmission as set forth in claim 1 having a biasing means applied directly to said gear cage to place said gear cage in driving engagement until the moment of pivotal movement to bring the other of said driving gears into reversed driving engagement.
- 3. An oscillating sprinkler transmission as set forth in claim 1 wherein said means for pivoting said gear cage has a toggle device mounted adjacent said gear cage for reversing its movement, said gear cage and toggle device being mounted for separate pivotal movement around the same axis.
- 4. An oscillating sprinkler transmission as set forth in claim 3 having a base member with an upstanding fixed center member, said gear cage and toggle device being mounted for separate pivotal movement on said upstanding fixed center member.
- 5. An oscillating sprinkler transmission as set forth in claim 1 including an input shaft, said input gear being mounted on said input shaft, a sleeve around said input shaft, said gear cage having stop means thereon, said gear cage stop means being positioned to engage said sleeve to limit engagement of said second gear or idler gear with said input gear.
- 6. An oscillating sprinkler transmission as set forth in claim 4 wherein said toggle device has overcenter spring means for biasing said toggle device in one direction on one side of center and in the other direction on the otter side of center, said spring means being located between said fixed center member and said toggle device acting outwardly on said toggle device.
- 7. An oscillating sprinkler transmission as set forth in claim 4 wherein said gear cage has a bottom plate, said toggle device comprising a toggle plate between said bottom plate and base member, said bottom plate and toggle plate each having a coaxial center opening fitting over the upstanding fixed center member, said toggle device having overcenter spring means for biasing said toggle plate in a clockwise direction on one side of center and a counter-clockwise direction on the other side of center, said toggle plate having a cut-out portion extending from its center opening to a point radially outward therefrom, said spring means being located in said cut-out portion extending between said fixed center member and said point of said toggle plate for acting outwardly on said toggle plate.
- 8. An oscillating sprinkler transmission having an output gear, means for mounting said output gear for rotation about an axis, a gear cage with a first drive gear and a second drive gear for alternate driving engagement with said output gear to oscillate it, means pivotally mounting said gear cage for movement, means for alternately pivoting said gear cage in one direction to drive said first drive gear and said output gear and in the other direction to drive said second drive gear and said output gear including first spring means for directly biasing said gear cage in one of said directions and then in the other direction, said means for alternately pivoting said gear cage having a toggle device pivotally mounted with respect to said gear cage for reversing the movement of said gear cage, said gear cage and toggle device being mounted for separate pivotal movement, said toggle device being pivotally mounted around the axis of said output gear, second spring means for biasing said toggle device in either direction, said second spring means having fixed spring seat means located radially inwardly of said toggle device, said toggle device having spring seat means located radially outwardly on said toggle device, said second spring means acting outwardly on said toggle device to achieve reversing movement of said gear cage.
- 9. An oscillating sprinkler transmission as set forth in claim 8 wherein said second spring means is located in a cut-out portion of said toggle device.
- 10. An oscillating sprinkler transmission having an output gear, a gear cage for alternate placing of one or the other of two rotating first and second drive gears into driving engagement with said output gear to oscillate it, said output gear and gear cage having a common center, means mounting said gear cage for movement, means for alternately moving said gear cage in one direction to drivingly connect said first drive gear with said output gear and in the other direction to drivingly connect said second drive gear with said output gear, including first means for biasing said gear cage in one direction and then the other direction, and second means for biasing said gear cage in one direction to maintain said first drive gear in driving engagement when said first means for biasing has been removed.
- 11. A combination as set forth in claim 10 wherein said second means is also for biasing said gear cage in the other direction to maintain said second drive gear in driving engagement when said first means for biasing has been removed.
- 12. A combination as set forth in claim 10 including said second means biasing said gear cage in one direction for a predetermined portion of the movement of said first biasing means from said gear cage.
- 13. A combination as set forth in claim 10 including a downward projection on said year cage having a surface on which said second biasing means acts, said surface being contoured to vary the effect of the second biasing means.
- 14. A combination as set forth in claim 10 wherein said gear cage is mounted for an angular movement between driving engagement of said first drive gear and said second drive gear, said first biasing means biasing said gear cage in one direction for one portion of said angular movement and biasing said gear cage in the other direction for another portion of said angular movement, means for removing the biasing of said first biasing means from said gear cage in one direction for reversing movement of said output gear, said second means for biasing said gear cage in one direction maintaining said gear cage biased in said one direction at least until said first biasing means is biasing said gear cage in said other direction.
- 15. An oscillating sprinkler unit, comprising: a sprinkler head mounted for rotation about a first axis; drive means comprising a gear carrier with alternately operable terminal drive means on said carrier; said gear carrier being shiftable about said first axis to alternately engageable driving positions for driving said sprinkler head in alternate directions; shifting arm means movable by arc control contact means rotatable with said nozzle for shifting said gear carrier between said alternate engageable positions; biasing means continuously acting on said gear carrier for retaining said gear carrier in a selected one of said alternate engageable positions until shifted from either position by said shifting arm means.
- 16. An oscillating sprinkler transmission as set forth in claim 2 wherein said means for pivoting said gear cage includes an actuation means having spring means, said spring means being loaded by a cooperating angular limit contact means rotatable with said output gear to pivot said gear cage to its alternate driving position against the bias of said biasing means.
- 17. An oscillating sprinkler transmission as set forth in claim 2 wherein said gear cage biasing means includes an over-center spring means.
- 18. An oscillating sprinkler transmission as set forth in claim 17 wherein said over-center spring means includes a cam and adjacent biasing follower means having slideably engaging surfaces for biasing and maintaining said gear cage in a selected one of alternately engageable positions until the moment of disengagement and gear cage shifting over center at which time its action then moves said gear cage to bring the other of said driving gears into reversed driving engagement.
- 19. An oscillating sprinkler transmission as set forth in claim 18 wherein one of said surfaces is contoured to vary the effect of the biasing follower means on said cam.
- 20. An oscillating sprinkler transmission having an output gear, said output gear having an axis, a gear cage having a first drive gear and a second drive gear for alternate driving engagement with said output gear to oscillate it between a clockwise and a counter-clockwise direction, said gear cage having an idler gear in engagement with said first drive gear, said second drive gear and said idler gear being spaced apart, an input gear located between said second drive gear and said idler gear, said gear cage being mounted for pivotal movement, means for pivoting said gear cage in one direction to bring said second drive gear into engagement with said input gear and for pivoting said gear cage in the other direction to bring said idler gear into engagement with said input gear, said input gear driving said output gear in one direction through said second drive gear, said input gear driving said output gear in the other direction through said idler gear wherein the driving reaction force on the gear cage holds the gear cage in driving engagement with the input gear in both driving directions.
- 21. An oscillating sprinkler transmission as set forth in claim 20, wherein said first and second drive gears both are in continuous engagement with said output gear.
- 22. An oscillating sprinkler having an oscillating transmission, said oscillating transmission having an output gear means thereon, a pivoted gear cage having a first clockwise drive gear means and a second counter-clockwise drive gear means for alternately driving said output gear means in opposite directions, said pivoted gear cage being pivotally mounted between two positions so that in one position said first clockwise drive gear means drives said output gear means in a clockwise direction and in a second position said second counter-clockwise drive gear means drives said output gear means in a counter-clockwise direction to oscillate it; a first overcenter spring means for biasing said gear cage overcenter in either direction to drive said output gear means in either direction; toggle means mounted or movement relative to said gear cage between a cooperating first and second limit means on said gear cage, said toggle means including second overcenter spring means for biasing said toggle means in one direction overcenter against said first limit means and in another direction overcenter against said second limit means; said first limit means, when biased by said second overcenter spring means through said toggle means, biasing said gear cage and its first overcenter spring means overcenter for rotating said output gear means in one direction; said second limit means, when biased by said second overcenter spring means through said toggle means, biasing said gear cage and its first overcenter spring means overcenter for rotating said output gear means in the other direction; actuating means on said toggle means; an arc control to contact said actuating means to move said toggle means in one direction where the second overcenter spring means will bias said toggle means to its cooperating limit means on said gear cage and then bias the gear cage against the bias of said first overcenter spring means; when the gear cage is moved overcenter by the second overcenter spring means it will join the first overcenter spring means and bias said gear cage towards driving engagement; first stop means for limiting the rotational travel of said toggle means prior to movement of the gear cage to drive the output gear in the opposite direction; the first overcenter spring means will then continue to carry the gear cage into engagement for driving the output gear in the opposite direction changing the direction of rotation of said output gear means whereby said contact means rotatable with said output gear means will contact said actuating means on said toggle means and move said toggle means in the other direction where the second overcenter spring means will bias said toggle means to its other cooperating limit means on said gear cage and then bias the gear cage against the bias of said first overcenter spring means; when the gear cage is moved overcenter by the second overcenter spring means it will join the first overcenter spring means and bias said gear cage towards driving engagement; second stop means for limiting the rotational travel of said toggle means prior to movement of the gear cage to drive the output gear in the opposite direction; the first overcenter spring means will then continue to carry the gear cage into engagement for driving the output gear in the opposite direction.
- 23. A sprinkler oscillating transmission having an output gear, means for mounting said output gear for rotation about an axis, a gear cage with one drive gear for alternate driving engagement with one of two counter rotating input shaft gears for driving engagement with said output gear to oscillate it, means pivotally mounting said gear cage for movement, means for alternately pivoting said gear cage in one direction to drivingly engage said first input gear with said output gear and in the other direction to drivingly engage said second counter rotating input shaft gear with said output gear including spring means for biasing said gear cage in one direction or the other direction, said means for alternately pivoting said gear cage having a toggle device pivotally mounted with respect to said gear cage for reversing the movement of said gear cage, said gear cage and toggle device being mounted for separate pivotal movement, said toggle device comprising a plate pivotally mounted around the axis of said output gear, said spring means biasing said gear cage in one direction or the other direction through said plate, said spring means having fixed first spring seat means located radially inwardly of said plate, said plate having second spring seat means located radially outwardly on said plate, said spring means being located between said first spring seat means and said second spring seat means for acting outwardly on said plate to bias it in one direction or the other direction.
- 24. An oscillating transmission as set forth in claim 23 wherein said spring means is located in a cut-out portion of said plate.
- 25. A sprinkler oscillating transmission having an output gear, said output gear being mounted for rotation in either direction, a gear cage having a single shiftable connecting pinion gear for alternately driving said output gear to oscillate said output gear between a first and second angular position, means mounting said gear cage for movement between a first and second drivingly engaged position means for alternately moving said gear cage in one direction to said first drivingly engaged position to drivingly engage a first input shaft gear with said output gear to drive said output gear in a direction to its second angular position and in the other direction to said second drivingly engaged position to drivingly engage a second counter rotating input shaft gear with said output gear to drive said output gear in a direction to its first angular position, said means for alternately moving said gear cage including first biasing means for alternately biasing said gear cage in one direction or the other towards its first or second drivingly engaged position, said means for alternately moving said gear cage removing the bias of said first biasing means from said gear cage during the movement of said output gear to its first or second angular position, and second biasing means for directly biasing said gear cage in said one direction towards its first drivingly engaged position to maintain said gear cage biased in said one direction when said first biasing means for biasing has been removed to move said gear cage in said other direction at least until said first biasing means is biasing said gear cage in said other direction.
- 26. A combination as set forth in claim 25 wherein said second biasing means is also for directly biasing said gear cage in said other direction towards its first drivingly engaged position to maintain said gear cage biased in said other direction when said first biasing means for biasing has been removed to move said gear cage in said one direction until said first biasing means is biasing said gear cage in said one direction.
- 27. A combination as set forth in claim 25 including a downward projection on said gear cage having a surface on which said second biasing means acts.
- 28. An oscillating sprinkler unit, comprising: a sprinkler head mounted for rotation about a first axis; a drive motor; a reversible gear train for drivingly connecting said drive motor to said sprinkler head for driving said sprinkler head in alternate directions, comprising a final drive gear connected to said sprinkler head, shiftable drive means comprising a carrier and single connecting drive gear for alternately engaging one of two counter rotating gears with said final drive gear for driving said sprinkler head in alternate directions; shifting arm means pivotally mounted adjacent said carrier and moveable between alternate shifting positions by engagement with arc control contact means rotatable with said final drive gear, and lost motion means for connecting said shifting arm means with said carrier for shifting said carrier between said alternately engageable positions upon movement of said shifting arm means between said alternate shifting positions; and cam means on said carrier slideably engageable by adjacent biasing follower means for biasing and maintaining said carrier in a selected one of said alternately engageable positions until shifted there from by said shifting arm means.
- 29. An oscillating sprinkler unit, comprising: a housing having a generally cylindrical configuration with a central axis, an inlet at a lower end for attachment to a source of water and an outlet at an upper end; a sprinkler head mounted on said upper end for rotation about said central axis; a drive motor mounted in said housing for driving said sprinkler head; a shiftable gear train comprising terminal drive gear means connected to said sprinkler head, shiftable means for alternatively shifting said terminal drive gear means alternatively into engagement with counter rotating internal gears for driving said sprinkler head in alternate directions; said shiftable drive means comprising counter rotating drive gears driven by said drive motor rotation about an axis offset from said first axis; a pivoting gear carrier mounted for pivotal movement about an axis; to provide driving engagement of one or the other of said counter rotating gears with said terminal gear means; a shifting arm mounted for pivotal movement; lost motion beans disposed between said shifting arm and said carrier for connecting said shifting arm to said gear carrier for shifting said terminal drive gear means to alternately engageable positions; first overcenter biasing means for maintaining said shifting arm means in a selected one of said alternately shifting positions; and overcenter bias means applied on said pivoted gear carrier for biasing and maintaining said gear carrier in a selected one of said alternate engageable positions until said pivoted gear carrier is shifted out of engagement and carried over its bias means center by the shifting arm bias at which time the pivot gear carrier bias means force biases said pivoted gear carrier into driving engagement for rotating said terminal drive gear in the reverse direction.
CROSS REFERENCE
[0001] Patent application Ser. No. 932,470, filed Nov. 18, 1986, now U.S. Pat. No. 5,417,370, for “A TRANSMISSION DEVICE HAVING AN ADJUSTABLE OSCILLATING OUTPUT”; patent application Ser. No. 037,704, filed Apr. 13, 1987, now U.S. Pat. No. 4,867,378, for a “SPRINKLER DEVICE”; patent application Ser. No. 183,071, filed Apr. 19, 1988, now U.S. Pat. No. 4,901,924, for a “SPRINKLER DEVICE WITH ANGULAR CONTROL”; patent application Ser. No. 245,126, now U.S. Pat. No. 4,955,542, for a “REVERSING TRANSMISSION FOR OSCILLATING SPRINKLERS”; and patent application Ser. No. 626,993, filed Dec. 13, 1990, now U.S. Pat. No. 5,148,991, for a “GEAR DRIVEN TRANSMISSION FOR OSCILLATING SPRINKLER”, all filed by Carl L. C. Kah, Jr., are related to this divisional application of patent application Ser. No. 08/269,342.
[0002] This application is a division of application Ser. No. 08/269,342, filed Jun. 30, 1994, which was a Continuation-in-Part of application Ser. No. 07/724,406, filed Jun. 28, 1991 (now abandoned), which was a Continuation-in-Part of application Ser. No. 06/932,470, filed Nov. 18, 1986, now U.S. Pat. No. 5,417,370.
Divisions (3)
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Number |
Date |
Country |
Parent |
09592843 |
Jun 2000 |
US |
Child |
09935725 |
Aug 2001 |
US |
Parent |
08863739 |
May 1997 |
US |
Child |
09592843 |
Jun 2000 |
US |
Parent |
08269342 |
Jun 1994 |
US |
Child |
08863739 |
May 1997 |
US |
Continuations (1)
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Number |
Date |
Country |
Parent |
09935725 |
Aug 2001 |
US |
Child |
10681817 |
Oct 2003 |
US |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
07724406 |
Jun 1991 |
US |
Child |
08269342 |
Jun 1994 |
US |
Parent |
06932470 |
Nov 1986 |
US |
Child |
07724406 |
Jun 1991 |
US |