A walk behind mower includes an engine-driven transmission for driving a pair of wheels at rate that varies according to the position of a transmission setting control selected by an operator. The transmission setting control positions a member that has a stop surface proximate to a transmission spe
A walk behind mower includes an engine-driven transmission for driving a pair of wheels at rate that varies according to the position of a transmission setting control selected by an operator. The transmission setting control positions a member that has a stop surface proximate to a transmission speed input on the transmission. The transmission speed input is adjusted by one or more levers on a handle of the mower. The transmission setting control is adjusted to define a home position of the stop surface relative to the transmission speed input and define a range of travel of the transmission speed input before it contacts the stop surface. The member is spring biased toward the home position but is moveable away from the home position. The position of the transmission speed input when it contacts the stop surface defines a first rate of travel of the transmission. An operator applies a first amount of force to the lever until the transmission speed input contacts the stop surface. The operator can apply a second greater amount of force to the lever that exceeds the spring biasing force on the member to further move the transmission speed input to define a second higher rate of travel of the transmission.
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The invention claimed is: 1. A walk behind mower having an operator handle and a pair of drive wheels operably connected to an engine-driven transmission, the walk behind mower comprising: a lever operably connected to the handle and moveable between a starting position and a second position; a tra
The invention claimed is: 1. A walk behind mower having an operator handle and a pair of drive wheels operably connected to an engine-driven transmission, the walk behind mower comprising: a lever operably connected to the handle and moveable between a starting position and a second position; a transmission speed input operably connected to the lever, the transmission having a rate of speed that is a function of a rotational position of the transmission speed input, wherein the transmission is in neutral when the lever is in the starting position and wherein the transmission is at a highest rate of speed when the lever is in the second position; a first member connected to the transmission speed input and rotatable therewith; and a second member having a stop surface positioned relative to the first member and operably engageable with the first member, the stop surface of the second member having a home position near the first member and being moveable away from the home position, the second member being biased toward the home position; wherein a first amount of force applied to the lever moves the lever away from the starting position and causes the first member to rotate and engage the stop surface before the lever reaches the second position, and wherein the lever is moveable to the second position by applying a second amount of force to the lever to cause the first member to further rotate and move the second member away from the home position. 2. The walk behind mower of claim 1 wherein the first member comprises a plate, the plate being coaxially mounted to the transmission speed input, the plate having a first radial portion operably connected to the lever and a second radial portion radially spaced from the first radial portion, the second radial portion configured to engage the stop surface of the second member. 3. The walk behind mower of claim 2 wherein the lever is operably connected to the plate by a cable. 4. The walk behind mower of claim 2 wherein the second member is configured with a slot, wherein an end of the slot defines the stop surface of the second member, and wherein the second radial portion of the plate is positioned within the slot. 5. The walk behind mower of claim 4 wherein the second member comprises a first portion and a second portion pivotally connected to an end of the first portion and extending at an angle relative to the first portion, wherein the first portion is configured with the slot and the second portion is pivotally connected to a frame member of the mower. 6. The walk behind mower of claim 5 and further comprising a spring connected between the frame member and the second portion of the second member, the spring biasing the end of the slot of the second member toward the home position. 7. The walk behind mower of claim 1 wherein the home position of the stop surface of the second member is adjustable. 8. The walk behind mower of claim 7 and further comprising a control operably connected to the handle and further operably connected to the second member, wherein the home position of the stop surface of the second member is a function of a setting of the control. 9. The walk behind mower of claim 8 and further comprising a third member having a first radially extending portion and a second radially extending portion, the second radially extending portion extending at an angle relative to the first radially extending portion, the third member pivotally connected to a frame member of the mower, wherein the first radially extending portion is operably connected to the control and wherein the second radially extending portion is operably engageable with the second member. 10. A method of operating a transmission of a motorized walk behind mower between a first selected transmission speed less than a maximum transmission speed and the maximum transmission speed, the method comprising: operably connecting a lever on a handle of the mower to a transmission speed input, the transmission speed input being moveable between a neutral position and a second position corresponding to the maximum transmission speed; operably connecting the transmission speed input to a moveable member having a stop surface; and biasing the moveable member in a first position with the stop surface proximate the transmission speed input; wherein the transmission speed input encounters the stop surface to define the first selected transmission speed when a first amount of force is applied to the lever; and wherein the transmission speed input moves the moveable member and reaches the second position when a second amount of force is applied to the lever. 11. The method of claim 10 and further comprising adjusting the first position of the moveable member to change a distance of the stop surface relative to a neutral position of the transmission speed input. 12. The method of claim 11 wherein the step of adjusting the first position of the moveable member comprises increasing the distance of the stop surface relative to the neutral position of the transmission speed input. 13. A walk behind mower having an operator handle and a pair of drive wheels, each drive wheel being operably connected to a first and second independent engine-driven transmission, the walk behind mower comprising: a pair of levers operably connected to the handle, each lever being moveable between a starting position and a second position; a transmission speed input associated with each of the first and second transmissions and operably connected to each of the pair of levers, the first and the second transmission each having a rate of speed that is a function of a rotational position of the transmission speed input, wherein each of the first and the second transmission is in neutral when a respective lever is in the starting position and wherein each of the first and the second transmission is at a highest rate of speed when the respective lever is in the second position; a first member connected to each transmission speed input of the first and second transmissions and rotatable therewith; and a second member associated with each of the first and second transmissions and having a stop surface positioned relative to each first member and operably engageable with the respective first member, the stop surface of the second member having a home position near the respective first member and being moveable away from the home position, the second member being biased toward the home position; wherein a first amount of force applied to the pair of levers moves the levers away from the starting position and causes the respective first members to rotate and engage the stop surface before the levers reach the second position, and wherein the levers are moveable to the second position by applying a second amount of force to the levers to cause the respective first members to further rotate and move the second member away from the home position. 14. The walk behind mower of claim 13 wherein the first member comprises a plate, each respective plate being coaxially mounted to the respective transmission speed input, each plate having a first radial portion operably connected to a respective one of the pair of levers and a second radial portion radially spaced from the first radial portion, the second radial portion configured to engage the stop surface of the second member. 15. The walk behind mower of claim 14 wherein each lever of the pair of levers is operably connected to the respective plate by a cable. 16. The walk behind mower of claim 15 wherein the home position of the stop surface of the second member is adjustable. 17. The walk behind mower of claim 16 and further comprising a control operably connected to the handle and further operably connected to at least one of the second members, wherein the home position of the stop surface of each second member is a function of a setting of the control. 18. The walk behind mower of claim 17 wherein each second member is configured with a slot, wherein an end of the slot defines the stop surface of the second member, and wherein the second radial portion of each plate is positioned within the respective slot. 19. The walk behind mower of claim 18 wherein each second member comprises a first portion and a second portion pivotally connected to an end of the first portion and extending at an angle relative to the first portion, wherein the first portion of each second member is configured with the respective slot and each second portion is pivotally connected to a frame member of the mower. 20. The walk behind mower of claim 19 and further comprising a linking member connected between the second portion of each second member. 21. The walk behind mower of claim 20 and further comprising a third member associated with each second member, each third member having a first radially extending portion and a second radially extending portion, the second radially extending portion extending at an angle relative to the first radially extending portion, each third member pivotally connected to a frame member of the mower, wherein the second radially extending portion of each third member is operably engageable with the respective second member and wherein the first radially extending portion of a first one of the third members is operably connected to the control. 22. The walk behind mower of claim 19 and further comprising a spring connected between the frame member and each second portion of the respective second member, each spring biasing the end of the respective slot of the second member toward the home position.
Braun Stephen A. (Horicon WI) O\Neill Michael J. (Mayville WI) Polak David C. (Beaver Dam WI) Cutshall Donald L. (Burnsville MN), Self-propelled steerable walk behind mower linkage.
Kitamura Junichi (Osaka JPX) Tomiyama Yoshio (Osaka JPX) Oshima Hiroshi (Osaka JPX), Transmission system capable of driving right and left drive wheels at different speeds.
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