IMPLEMENT GUIDANCE SYSTEMS KEEPING PULLED EQUIPMENT ON TRACK Satellite navigation systems on tractors keep the tractor on track - but they cannot always address the challenge of keeping the equipment that the tractor is pulling behind on track. Controlling the potential drift of pulled equipment enables true precision and makes sure the pulled equipment follows the same exact path as the tractor.
IMPLEMENT GUIDANCE SYSTEMS KEEPING PULLED EQUIPMENT ON TRACK By installing an additional navigation system on the implement that communicates with the autopilot system of the tractor, the navigation system accurately calculates the implement position and steers the implement on an exact path, even on extreme slopes and in variable soil condition.
IMPLEMENT GUIDANCE SYSTEMS KEEPING PULLED EQUIPMENT ON TRACK The system works by directing the different steerable controls that an implement has. Implements that do not have steerable controls can be equipped with steerable additions.
IMPLEMENT GUIDANCE SYSTEMS
BENEFITS OF IMPLEMENT GUIDANCE SYSTEMS High accuracy (2cm) reduces potential crop and root damage These systems significantly improve the performance and manoeuverability of large implements The systems increase operating speeds and tractor efficiency while reducing operator stress and fatigue
AUTOMATIC WIND CONTROL SYSTEMS BEATING THE WIND Due to their light weight, certain fertiliser granules are highly sensitive to wind during the spreading process. As a result, winds can make often it impossible for the farmer to apply fertiliser in a controlled manner on the field. Automatic wind control systems help farmers to beat the wind and spread fertiliser in a precise and tailored manner even under difficult or changing wind conditions.
AUTOMATIC WIND CONTROL SYSTEMS BEATING THE WIND Weather station A weather station is installed on the spreader unit which measures the force and direction of the actual wind
AUTOMATIC WIND CONTROL SYSTEMS BEATING THE WIND Weather station Calculation of spreading fan adjustment to correct wind drift The data received is transferred to the on-board computer which calculates how the angle and speed of the spreading mechanism has to be adjusted to compensate for the wind
AUTOMATIC WIND CONTROL SYSTEMS BEATING THE WIND Weather station Calculation of spreading fan adjustment to correct wind drift Controlled & accurate application Thanks to the wind sensor acting in live, an optimal distribution of fertiliser is maintained, resulting in improved crop management and higher yields.
AUTOMATIC WIND CONTROL SYSTEMS
BENEFITS OF AUTOMATIC WIND CONTROL SYSTEMS Overlap spreading and spreading errors are avoided, ensuring optimal fertiliser use. The systems enable a uniform growth rate and help to avoid yield/quality loss. They extend the operational time and work rate. As a result, nonproductive time is reduced and the optimum application date can be achieved. Fields are accurately fertilised in line with the nutrient requirements of the crops, even in difficult and changing wind conditions.
OPTIMIZED BOUNDARY SPREADING UP TO THE LIMIT - BUT NOT BEYOND Modern spreaders can distribute fertilizer in a fairly wide range on the field (up to 40m). Within the field, a wide spreading range is beneficial as it contributes to cost-efficiency and sustainability: larger areas can be fertilised in just one go, saving time and travelling distance (and fuel) for the tractor. However, wide spreading ranges can present a challenge in areas close to the field s border, as fertilizer may end up in areas outside the field.
OPTIMIZED BOUNDARY SPREADING UP TO THE LIMIT - BUT NOT BEYOND Precision farming techniques enable the automatic adaptation of the spreading distance in real time. When approaching the border of the field, special software controls the throwing width of the spreader and adapts it to the required rate on each side. This ensures controlled, accurate distribution on the field at all times, saves fertilizer and results in higher yields and better soil.
OPTIMIZED BOUNDARY SPREADING
BENEFITS OF OPTIMIZED BOUNDARY SPREADING Optimises use of fertiliser, avoiding under and over fertilised areas which are hotspots for crop diseases and loss of quality Provides an uniform fertiliser rate that ensures a higher yield
AUTOMATIC GUIDANCE SYSTEMS FINDING THE WAY THROUGH YOUR FIELD Modern harvesters are equipped with a variety of automatic guidance systems to allow the highest accuracy in the field.
AUTOMATIC GUIDANCE SYSTEMS FINDING THE WAY THROUGH YOUR FIELD Laser pilot for accurate row guidance Laser sensors use pulses of light to scan the edge between the cut and uncut crop. The sensors then send signals to the steering system to follow this precise path, guiding the harvester automatically along the edge with an accuracy of 2cm. The system guarantees that the harvester s header is always full, right to the edge. It also ensures ultimate accuracy and high functional reliability even when working at night, with laid crops, or on steep slopes.
AUTOMATIC GUIDANCE SYSTEMS LASER PILOT
AUTOMATIC GUIDANCE SYSTEMS FINDING THE WAY THROUGH YOUR FIELD Satellite-guided pilot The row guidance system can be combined with a satellite positioning system (GPS). The system can divide a field into identically sized sections and can distinguish between cut and uncut rows to facilitate night-time harvesting and advanced harvesting activities such as skip row functionality. This effectively avoids overlap when harvesting as well as time lost on unproductive cutting of leftover strips.
AUTOMATIC GUIDANCE SYSTEMS SATELLITE-GUIDED PILOT
AUTOMATIC GUIDANCE SYSTEMS FINDING THE WAY THROUGH YOUR FIELD Auto-pilot Digital sensors incorporated in the picker units of maize headers can record the position of the combine harvester and automatically guide it on the best path through the rows of maize, keeping it perfectly on track in all field conditions. The sensor also monitor the crop entering the header, and automatically guide the machine to ensure true perpendicular entry even in poor visibility or at high speeds, contributing to greater performance and efficiency.
AUTOMATIC GUIDANCE SYSTEMS AUTO-PILOT
BENEFITS OF AUTOMATIC GUIDANCE SYSTEMS Driving the shortest distance and using the full width of the cutterbar contributes to improved fuel efficiency and reduced working hours These systems reduce missing parts when harvesting and therefore increase overall production These systems provide higher functional reliability and safety regardless of visibility conditions