The centre pivot design of the 835 mower conditioners lets you mow back and forth across a field and get up to 15% more crop cut than a side pull MoCo. Their welded construction ensures excellent reliability while big, wide tyres reduce soil compaction by a third.
A spiral-bevel gearcase supplies power to the cutting platform. The gears are heat-treated for added strength. The power take-off (PTO) shaft is bolted into the disc through the drum, not directly in to the first sprocket. Due to the torque transmitted through the first disc, a dedicated shear hub is installed. It is specially dimensioned to assume the higher torque and correctly protect the cutterbar from shock. The large diameter of the cutterbar’s discs easily support the higher torque.
Three V-band belts insure an efficient rolls and impeller conditioner transmission. (See rolls conditioner and impeller conditioner to get more information about these systems)
Three V-band belt insures an efficient transmission from the main driveline to the gearbox PTO.
Dedicated to legume-type crops like alfalfa, clover, conditioner rolls are the best answer. Customers cutting legumes need to preserve stems with leaves kept on. With the conditioner rolls, plants are crushed between both rolls of the conditioner. Hard impacts are eliminated. It avoids disconnecting leaves from stalks. Plants travel through the rolls space and are crushed by the pressure applied on the rolls.
Both urethane rolls have pronounced chevrons to increase the pitching point and to decrease dry-down time. Rolls are cold-molded so there is no possible tube distortion. These elements keep the conditioning efficiency consistent, no matter the situation. Conditioner rolls are available for the 630, 635, 830, and 835 Mower-Conditioners.
To improve drying performance, the operator can adjust roll spacing and pressure easily and conveniently. The spacing is adjusted by one wrench, taking 5 minutes maximum.
Cushioned roll stops are used for quiet operation. In coarse grasses, a wider spacing may be more desirable. In legumes, the operator will probably need a narrower spacing. The rolls, being made from urethane, result in better dimensional accuracy during the manufacturing process.
Roll spacing is more uniform over the complete length of the rolls. Bending is virtually eliminated, so that adjustment can be made more accurately.
Roll pressure can be adjusted to match crop conditions. Increase or decrease roll pressure by simply shortening or lengthening tensioning springs (one on each side of the machine).
Because of these two settings, operators will benefit from a highly-durable and high-performance machine.
Due to the rolls working face-to-face, transmission and movement synchronization are keys for success. Power is transmitted downward from the gearbox to the conditoning rolls by a three band V-belt.
Belt tension can be adjusted by a tensioning arm. The long-term conditioner performance and conditioning efficiency depend on the roll synchronization, meaning the rolls bars and holes must be aligned. This alignment is created by the flanges adjustable U-joint system, located on the right. Additionally, the power take-off (PTO) greasers are easy to access. The operator benefits from longer uptime and a high-performing machine.
The center-pivot machines naturally benefit from a better balance. This concept allows the machine to position on the tractor’s right or left. Maneuverability is improved, so that field entrance and curve management are easier. The capacity to make back and forth mowing sequences produces parallel and full-length swath. This optimizes the following harvesting machine operations.
If there is a large distance between the sides of the base of support and center of gravity, better balance will result. The long drawbar increases the distance between the center of gravity on the side of the base, providing better tracking, even on slopes. The stability allows for a higher working speed and a greater productivity in the field.
Combined with a low center of gravity due to a low carrier frame, the design provides stability and excellent balance for better tracking. Work and headland maneuvers are also improved in slopes. Finally, center-pivot concept allows for the ability to move the platform to the right and the left. Field entrance, curves, and the field’s corners, are easier to manage and access.
The carrier frame is 100 percent welded to support strain and stress, increasing reliability. The wheels are located inside the carrier frame, assuring that the transport width does not depend on the tire size.
The platform is hydraulically lifted by two cylinders. It raises and lowers the platform quickly and is conveniently operated from the tractor seat using a single-acting SCV. Once raised, the ground clearance is around 500 mm, facilitating maneuvers and avoiding swath cutting in headlands, pushed cutting platform, ground pressure, cutting height, acceleration or deceleration, mowing uphill or downhill, bumps, and ground contours.
The platforms frame is dimensioned to keep elements of the machine safe and functional. The frame is able to absorb constraints and keep the cutterbar and the conditioner safe.
The easy access lock system allows the tongue positioning cylinder to be easily locked. The operator only needs to adjust a lever accessible from the rear of the machine to be safe on road. There is no risk that the platform position will change while traveling on the road.
Optional wheel shocks are available for customers looking for safer machine position while parking. They are offered as standard for Germany, Italy, and Spain.
Contrary to a pulled-cutting platform, a pushed-cutting platform has a ground pressure and cutting height that does not vary with the tractor's speed, acceleration or deceleration, or when mowing uphill or downhill. The wheel locations are as close as possible to the cutterbar.
When driving over a bump, the wheels will follow the ground contour and will lift the cutterbar accordingly. The result is optimum ground contour traction. The up and down movement of the platform is led by a parallelogram linkage. Two arms connect the platform and carrier frame in the down position and the platform is then pushed by the carrier frame. A single arm used to adjust the cutting height completes the parallelogram.
The cutting angle can be adjusted by a single turnbuckle on the left-hand side of the machine. The changing of the cutting angle affects the cutting height as well. The milled part of the multifunction tool allows the operator to verify the cutting angle or use a previous setting.
An optional hydraulic cylinder lets the operator adjust the cutting height on-the-go (by changing the cutting angle) for changing crop or ground conditions. This is useful in a rocky area. The operator can increase the cutting height from the cab to protect the rotating discs and knives. This device requires the use of an additional tractor selective control valve (SCV).
The 800 Series Mower-Conditioners are fitted with a brand suspension design to ensure outstanding floatation performance. The suspension is also active while on roads. The entire cutting, conditioning, and windrowing unit is laterally suspended with two springs ideally located on both rear sides, resulting in constant ground pressure and quick return to a working position after striking obstacles.
This floatation lightens the weight of the machine, providing excellent ground contour following, preserving crop stubble, improving cut quality and reducing the wear of skid plates. Each spring can be adjusted dependently on the weight it has to support. Suspension efficiency is also consistent no matter the cutterbar placement.
For easier and quicker suspension adjustment, the mowers are equipped with cranks and no tools are required. The optimum setting is achieved in a minimum of time.
The HPC system is equipped with preloaded tines which ensure quality crop flow, no matter the cutting condition. The crop is ejected regularly at a higher speed and the windrow forming shield works more accurately.
The impeller conditioner with preloaded tines is one of the reasons for the success of the HPC system. The location and shape of individual tines are located to obtain conditioning efficiency and windrow formation in most crop conditions. The large-diameter conditioner provides high inertia for low-power consumption and higher throughput.
The 600 Series is balanced, resulting in limited to no vibration of the machine, providing more driver comfort. Long-term reliability is also increased. The combination of setting possibilities and the machine’s versatility help to match all challenging condition.
The correct conditioning speed can be chosen by interchanging the two pulleys driving the rotor.
The conditioning hood is now mounted on a parallelogram kinematic. This exclusive market feature provides better conditioning efficiency and decreases dry down time, along with improved crop-flow at higher speeds and produces easy-to-manage windrows.
The conditioning intensity is visible due to a gauge. On 600/800 Series machines, a quick adjustment provides precise clearance between the conditioning hood and the impeller to match crop variety, density, and moisture. A simple crank on the right-hand side of the machine changes the distance between the hood and the impeller, setting the right amount of conditioning for any crop. This adjustment makes work in tall thick grass easier.
High-conditioning intensity is often advised when mowing natural grasses, graminaceous, and short crops. On the contrary, light conditioning is required for daily feeding in combination with a self-loading wagon. The impeller is not designed to condition leguminous, so if the operator chooses to do so, they need to, choose a light conditioning effect. The conditioning intensity is visible due to a gauge as well.