Windrow formation adjustment
Forming shields are easily adjusted to control the material flow. This allows the operator to match the windrow width to the harvesting requirements.
The adjustable swathboard controls the angle at which the crop flow contacts the forming shield providing additional control of windrow formation.
The windrow width is adjustable, without the use of tools, from a narrow windrow to a wide, fast-drying swath:
- 91.4 cm (36 in.) up to 216 cm (85 in.) with the roll conditioner
- 114.3 cm (45 in.) up to 216 cm (85 in.) with the impeller conditioner
NOTE: The windrow width depends on the crop conditions and type of conditioner.
The 995 features a single conditioning option; the impeller conditioner.
The impeller conditioner works well in a wide variety of crop types and conditions. With proper adjustment, the impeller conditioner delivers a wide range of performance expectations to meet every customer’s needs.
HOW AN IMPELLER CONDITIONER WORKS:
1. As hay is cut by rotating knives, 72 V-shaped tines pick up the plants and carry them through the machine. The free-swinging design reduces damage to the conditioner, if rocks or other solid objects are struck.
- Tines are evenly spaced along the full width of the rotor
2. As the plant passes through, it rubs against the conditioning hood (A) and other plants. The rubbing action removes the waxy surface from the stem of the plant to allow faster evaporation of moisture.
3. The conditioner hood is adjustable to control the conditioning intensity. The wider the opening, the less aggressive the conditioning; this is used in legume-type crops. The smaller the opening, the more aggressive the conditioning; this is used more in grass hay.
4. The impeller has two speeds to match crop conditioning requirements:
- Simply interchange the drive sheaves
- High speed of 865 rpm for grass hay
- Low speed of 624 rpm for legumes
The impeller conditioner works well in legumes, especially alfalfa and most all-grass crops. Impeller conditioners are not recommended for cutting thick-stemmed or cane-type crops over 1.5-m (5-ft) tall.
Oval discs with free-swinging knives
Large oval discs with free-swinging knives are used to cut the crop.
Knives are free-swinging to reduce damage if solid object is struck.
- Knife tip speed is variable and can be adjusted from the cab to improve cutting in light crop conditions
- Knives are reversible to double useful life
- Knives are removed and replaced at the front of cutterbar for convenience
- All cutting discs are the same size
- Disks are computer-designed for improved wear and cutting performance
- Cutting discs are made of high-strength austempered steel
- Austemper heat-treating process assures that the steel is thoroughly and evenly tempered for good wear characteristics
Wear caps are installed on each end of the cutting discs (except on the end disks where crop accelerators are used) to increase the wear life of the cutting discs and knife bolt nuts.
Wear caps are open on the end to prevent debris from packing in close to the nut, making hardware and knives easier to change.
Made of austempered heat-treated ductile steel.
The John Deere-patented-design cutterbar is made from individual, diagonal-cut modules.
Serviceability is easy. Modules can be removed individually while leaving the cutterbar attached to the frame.
The modules are made of high-strength nodular iron castings. Each module consists of two idler gears and one drive gear. The large-diameter idler gears transmit power from module to module. The idler gears turn at a relatively slow speed for added durability.
A smaller-diameter pinion drive gear is used only to power the cutting disk. Power is not transmitted from one cutting disk to another except through the large-diameter idler gears.
Modules are interchangeable. Disc rotation is determined by the position of the quill (A).
There is a rubber oil seal between each cutting module.