A method of operating a stacking head of a sod harvester includes: (a) repeatedly transferring sod slabs from a transfer station located along a conveyor assembly of the sod harvester to a pallet station of the sod harvester to form a loaded pallet at the pallet station; (b) during replacement of the loaded pallet with an empty pallet, forming a stack of slabs at the transfer station; and (c) transferring the stack of slabs from the transfer station to the pallet station for deposit on the empty pallet when received at the pallet station, and repeating (a) to (c) in a continuous sod harvesting process.

A method of operating a stacking head of a sod harvester includes: (a) repeatedly transferring sod slabs from a transfer station located along a conveyor assembly of the sod harvester to a pallet station of the sod harvester to form a loaded pallet at the pallet station; (b) during replacement of the loaded pallet with an empty pallet, forming a stack of slabs at the transfer station; and (c) transferring the stack of slabs from the transfer station to the pallet station for deposit on the empty pallet when received at the pallet station, and repeating (a) to (c) in a continuous sod harvesting process.

A method of stacking sod rolls can include the steps of: a) moving a head of a sod handling apparatus into a sod pickup location containing a plurality of sod rolls; b) picking-up a first sod roll with a first sod carrier, picking-up a second sod roll with a second sod carrier, and picking-up a third sod roll with a third sod carrier; c) moving the head to a sod drop-off location; d) releasing the first sod roll from the first sod carrier at the sod drop-off location; e) after releasing the first sod roll, moving the second sod carrier toward the first sod carrier and moving the third sod carrier toward the first sod carrier to reduce the spacing between the second and third rolls of sod; and f) depositing the second sod roll and third sod roll at the drop-off location.

A sod harvester having a sod roll accumulator squeeze device configured to compact a sod roll while it is on a horizontal conveyor before it is picked up and moved by a sod carrier from a first location on the horizontal conveyor to a second location. The sod roll accumulator squeeze device is pivotally attached to a frame and controlled by a hydraulic cylinder that moves the accumulator squeeze device between an up position and a down position. The present invention is also a method of compacting a sod roll while it is at a first location on a horizontal conveyor of a sod harvester before it is moved by a sod carrier to a second location. The method includes providing an accumulator squeeze device that is pivotally attached to a frame and configured to compact the sod roll from the rear end of the sod harvester.

Sod harvesters can have hydraulic systems that are configured to actuate components with precise timing. The hydraulic system of a sod harvester can be configured to maintain the temperature of hydraulic fluid both during harvesting and while harvesting is paused to thereby eliminate or minimize the occurrence of periods of variation in the timing of actuation of the components that the hydraulic fluid drives. As a result, these components can be consistently actuated with precise timing even after harvesting has been paused. Additionally, such configurations can minimize the amount of time required to warm the hydraulic fluid to a steady operational temperature.

Sod harvesters can have hydraulic systems that are configured to actuate components with precise timing. The hydraulic system of a sod harvester can be configured to maintain the temperature of hydraulic fluid both during harvesting and while harvesting is paused to thereby eliminate or minimize the occurrence of periods of variation in the timing of actuation of the components that the hydraulic fluid drives. As a result, these components can be consistently actuated with precise timing even after harvesting has been paused. Additionally, such configurations can minimize the amount of time required to warm the hydraulic fluid to a steady operational temperature.

A stacking head's path can be dynamically calculated during a stacking operation. A control system of a sod harvester can include a dynamic path calculator for performing these dynamic calculations to prevent the stacking head from colliding with the sod harvester's frame or to cause the stacking head to traverse the most efficient path between the pickup position and the stacking position. These dynamic calculations could be performed in scenarios where the pickup position may be dynamically adjusted for a particular stacking operation.

A stacking head's path can be dynamically calculated during a stacking operation. A control system of a sod harvester can include a dynamic path calculator for performing these dynamic calculations to prevent the stacking head from colliding with the sod harvester's frame or to cause the stacking head to traverse the most efficient path between the pickup position and the stacking position. These dynamic calculations could be performed in scenarios where the pickup position may be dynamically adjusted for a particular stacking operation.

Synchronizing variables can be tuned based on a sod harvester's speed. A sod harvester's control system can include a tuning component that receives as input a current speed of the sod harvester. The tuning component can apply logic to the current speed to calculate values for synchronizing variables that are tuned for the current speed. In this way, the sod harvester can be operated with precision across a range of speeds, including at high speeds.

Synchronizing variables can be tuned based on a sod harvester's speed. A sod harvester's control system can include a tuning component that receives as input a current speed of the sod harvester. The tuning component can apply logic to the current speed to calculate values for synchronizing variables that are tuned for the current speed. In this way, the sod harvester can be operated with precision across a range of speeds, including at high speeds.