The present invention relates generally to an apparatus and method of compacting and leveling a ground surface. More particularly, this invention pertains to an apparatus and method for compacting and leveling a ground substrate prior to the installation of turf and for compacting a surface of turf installed upon a prepared ground substrate.
Turf rolling is a preferred practice widely known and used during the installation of turf on residential lawns, golf courses, athletic fields and institutional grounds. Prior to installation of the turf, rolling with a turf roller compacts and stabilizes the soil to form a ground substrate suitable for the installation of turf. After the installation of turf, rolling helps remove air pockets and to further stabilize the soil to ensure good contact between the roots and soil.
Seasonable and other maintenance rolling serves to tighten the thatch layer to increase durability of the turf. In the maintenance of golf courses and putting greens, turf rolling reduces spike marks on greens and reduces footmarks during wet weather. In the maintenance of athletic fields, turf rolling reduces cleat marks and smoothes the turf surface after aerificaiton and top dressing.
Turf rollers come in various sizes and may be self-propelled, towed or pushed. Towed turf rollers are typically larger than self-propelled or pushed rollers and are generally used in larger applications such as golf courses and athletic field maintenance. Common towed turf rollers typically incorporate a water filled, cylindrical drum attached as a rolling mechanism. The drum is attached to a tow frame for towing by a tractor or a similar vehicle. One common disadvantage of the cylindrical rollers is their tendency to leave marks in the turf surface caused by the edges at both ends of the cylindrical rollers. Another common disadvantage of cylindrical rollers is their tendency to gather mud, dirt, grass clippings and other debris on the roller surface. Such debris, if not removed, is pressed into the surface of the turf and may leave marks in the surface of the turf and/or debris embedded in the grass layer or the thatch layer.
What is needed is a turf roller adapted for use in large areas, such as golf courses and athletic fields, that does not leave marks caused by sharp edges such as those caused by a cylindrical drum roller.
What is also needed is a turf roller adapted to remove debris from the roller surface and prevent its deposit on the turf surface.
Also what is needed is a turf roller adapted to be towed by a vehicle at low speeds during turf rolling operations and to be towed at high speed during transport operation.
A turf roller of a preferred embodiment of the present invention includes a water filled, cylindrical roller drum with smoothed hemispherical ends adapted to eliminate sharp edges of a regular cylinder. The roller drum is suspended from a roller frame having a towing tongue and bracing attached. A heavy duty front scrapper blade is disposed along the length of the front of the drum to scrape mud, dirt and debris from the rolling surface of the drum. A second, rear scrapper blade and a grass basket is disposed along the length of the rear of the drum to scrape and retain grass clippings from the rolling surface of the drum. High speed transport wheels are extended by a hydraulic system and mechanical linkages to lift the roller from the turf surface for high speed transport. The high speed transport wheels are retracted and lifted above the surface for low speed turf rolling operations by the hydraulic system and mechanical linkages. The hydraulic system is operated remotely by the tow vehicle operator.
Advantageously, the turf roller's cylindrical drum with smoothed hemispherical ends eliminates sharp edges that would mark the turf during rolling, especially in turning the turf roller.
Also advantageously, the turf roller is adapted to incorporate both a front debris scrapper and a rear grass clipping scraper adapted to remove debris from the roller surface and prevent its deposit on the turf surface.
Also advantageously, the turf roller is adapted to have remotely operated hydraulically extendable and retractable high speed transit wheels that allow the roller to be towed by a vehicle at low speeds during turf rolling operations and to be towed at high speeds during transport operations.
The invention is illustrated in the accompanying drawings, in which;
A preferred embodiment of the turf roller of the present invention is shown in
A pair of laterally spaced rear transit wheels 28 are attached to the frame 8 by left and right transports legs 20 pivotally connected to laterally opposite sides of the frame. The rear wheels 28 may be retracted, as shown in
A laterally extended horizontal transport shaft 21 extends through each transport leg 20 so as to pivotally connect the leg 20 to the frame 8 for extending or retracting the wheels 28 thereby providing structural support for the frame 8 when the wheels 28 are extended to engage the ground for operation in the high speed transport mode. Advantageously, the wheel 28 can be locked in the extended position as shown in
For each hydraulic cylinder 25, a hydraulic conduit or hose 42 is attached at one end of the hydraulic cylinder 25 and at the other end to a hydraulic coupler 46 for attachment to a hydraulic source and actuator means (now shown). Advantageously, the tow vehicle operator can remotely operate the hydraulic actuator so as to lift or lower the drum roller 1 without the need of exiting the vehicle.
As shown in
A front scrapper 62 is disposed on the frame 8 at the front of the drum roller 1 and is adapted to scrape mud and debris from the cylindrical drum roller surface that were not scraped from the surface by the rear grass scrapper 62. The front scrapper 60 includes a mud scrapper blade 38 extending laterally the full axial length of the cylindrical drum surface and making contact with the cylindrical surface of the drum roller 1. The blade 38 is affixed to a mud scrapper base 37 and both extend laterally across the front cylindrical surface of the drum roller 1. Mud scrapper pivots 40 are affixed in the center and laterally opposite ends, respectively, of the base 37. A scrapper pivot mounts 39 are welded to the front of the frame 8 and connected respectively to the mud scrapper pivots 40 by the mud scrapper pivot pin 41. In operation of the turf roller 100, the front scrapper 60 faces rearward and opposite the direction of rotation of the drum roller 1. The front scrapper 60 removes mud and other debris still clinging to the drum roller surface as the drum roller 1 rotates.
Thus, although there have been described particular embodiments of the present invention of a new and useful turf roller, it is not intended that such references be construed as limitations upon the scope of this invention except as set forth in the following claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US07/85126 | 11/19/2007 | WO | 00 | 4/17/2009 |
Number | Date | Country | |
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60859749 | Nov 2006 | US |