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Agritechnica 2019 Gold and Silver Awards
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<blockquote data-quote="Agritechnica News" data-source="post: 6588494" data-attributes="member: 142288"><p>[ATTACH=full]837323[/ATTACH]</p><p></p><p><strong>17. Agrarsysteme Hornung GmbH & Co. KG (Hall 04 stand A54)</strong></p><p></p><p>Automatic All-Round Strapping Trolley</p><p></p><p>Careful securing of loads is crucial when transporting agricultural bales, but the manual securing of loads with belts involves a high degree of risk for the operator and takes a great deal of time that is in especially short supply during harvest.</p><p></p><p>The all-round strapping trolley from Agrarsysteme Hornung automates the proper securing of loads with straps with comparatively little effort, and requires less than 60 seconds to do so. The automatic lashing straps can be positioned as desired on the trailer. Swing arms at the front and rear wall lay the straps over the load. Then they are automatically tensioned. This securing method also functions with partial loading and imprecisely positioned bales.</p><p></p><p>Despite tight time schedules, this enables the driver to comply with the requirement to secure the load, while the danger during lashing and for other road users when driving on public roads is considerably reduced.</p><p></p><p>[ATTACH=full]837324[/ATTACH]</p><p></p><p><strong>18. HORTECH Srl, Italy, (Hall 21 stand F04)</strong></p><p></p><p>VENTUM</p><p></p><p>Shortage of labour is a growing concern, especially among vegetable growers. Although the harvesting processes of produce like rocket or baby leaf salad are largely mechanised today, processing and packaging are still carried out manually, which is time consuming.</p><p></p><p>The VENTUM self-propelled harvester is the first machine to combine the stages of harvesting, processing and packaging into one automated process. After the crop is harvested, it travels on a system of various conveyor belts operating at different speeds to the processing unit. The technology also spreads and scatters the crops. Foreign objects and unwanted particles are separated by blowing the material over a 30 cm gap onto another belt. In a final step, the cleaned, weighed and boxed produce is automatically transferred to a transport vehicle.</p><p></p><p>The VENTUM self-propelled harvester automates all harvesting, processing and packaging stages, presenting a substantial improvement to efficiency and quality in vegetable harvesting, thereby increasing productivity and reducing costs.</p><p></p><p>[ATTACH=full]837325[/ATTACH]</p><p></p><p><strong>19. John Deere Walldorf GmbH & Co. KG (Hall 13 stand C40)</strong></p><p></p><p>Intelligent vibration damping for large square balers</p><p></p><p>Large square balers enable high transport and storage density of plant material and therefore have achieved major importance in agriculture. However, due to high inertial and pressing forces, these big balers induce vibrations that subject the tractor cab to unpleasantly strong pitching movements, which put a strain on the tractor driver.</p><p></p><p>With intelligent vibration damping, these vibrations are almost completely eliminated on models of the 7R tractor series in conjunction with balers from John Deere. Based on the signals of the acceleration sensors in the GPS receiver and other signals within the tractor, the continuously adjustable drive is adjusted with the plunger frequency of the baler so that a periodic change of the speed setting compensates for the vibrations created. No additional hardware is required for this purpose.</p><p></p><p>This technology specifically developed for active vibration reduction means a considerable relief for the health and performance of tractor drivers.</p><p></p><p>[ATTACH=full]837327[/ATTACH]</p><p></p><p><strong>20. John Deere Walldorf GmbH & Co. KG (Hall 13 stand C40)</strong></p><p></p><p>Proactive throughput controller</p><p></p><p>Throughput controllers on combine harvesters cannot react to changes in the harvested crop conditions until the material is already in the harvesting header, in the intake duct or in the threshing unit. With extreme changes in harvesting conditions, such as lying crops, partial gaps and weed areas, result in correspondingly high over- or under-loading, and combine driving speeds that change too drastically. The throughput controller is then often deactivated.</p><p></p><p>John Deere solves this problem with the proactive throughput controller. 3D stereo cameras detect the crop situation in front of the combine just like a proactive driver. Crop heights, lying crop with lying direction, gaps, driving lanes and harvested areas are detected and classified by so-called "machine learning". In addition, the system also uses the data of vegetation models, which consist of biomass maps generated via satellite or other technologies. Camera and biomass signals can also be used alone in each case. As soon as the combine harvester begins harvesting, the system calculates regression models from the real-time and the geo-referenced vegetation data. The harvesting conditions in front of the machine are therefore known, as are the strategies still specified by the driver. The combine harvester merges all sensor values and then adjusts its driving speed and its settings to the harvest situation.</p><p></p><p>The proactive combine harvester operates automatically for the first time, just like a combine harvester operated by a proactive, experienced driver. With this technology, John Deere has taken a major step in the further development of the automation of threshing crop harvesting.</p></blockquote><p></p>
[QUOTE="Agritechnica News, post: 6588494, member: 142288"] [ATTACH type="full" alt="837323"]837323[/ATTACH] [B]17. Agrarsysteme Hornung GmbH & Co. KG (Hall 04 stand A54)[/B] Automatic All-Round Strapping Trolley Careful securing of loads is crucial when transporting agricultural bales, but the manual securing of loads with belts involves a high degree of risk for the operator and takes a great deal of time that is in especially short supply during harvest. The all-round strapping trolley from Agrarsysteme Hornung automates the proper securing of loads with straps with comparatively little effort, and requires less than 60 seconds to do so. The automatic lashing straps can be positioned as desired on the trailer. Swing arms at the front and rear wall lay the straps over the load. Then they are automatically tensioned. This securing method also functions with partial loading and imprecisely positioned bales. Despite tight time schedules, this enables the driver to comply with the requirement to secure the load, while the danger during lashing and for other road users when driving on public roads is considerably reduced. [ATTACH type="full" alt="837324"]837324[/ATTACH] [B]18. HORTECH Srl, Italy, (Hall 21 stand F04)[/B] VENTUM Shortage of labour is a growing concern, especially among vegetable growers. Although the harvesting processes of produce like rocket or baby leaf salad are largely mechanised today, processing and packaging are still carried out manually, which is time consuming. The VENTUM self-propelled harvester is the first machine to combine the stages of harvesting, processing and packaging into one automated process. After the crop is harvested, it travels on a system of various conveyor belts operating at different speeds to the processing unit. The technology also spreads and scatters the crops. Foreign objects and unwanted particles are separated by blowing the material over a 30 cm gap onto another belt. In a final step, the cleaned, weighed and boxed produce is automatically transferred to a transport vehicle. The VENTUM self-propelled harvester automates all harvesting, processing and packaging stages, presenting a substantial improvement to efficiency and quality in vegetable harvesting, thereby increasing productivity and reducing costs. [ATTACH type="full" alt="837325"]837325[/ATTACH] [B]19. John Deere Walldorf GmbH & Co. KG (Hall 13 stand C40)[/B] Intelligent vibration damping for large square balers Large square balers enable high transport and storage density of plant material and therefore have achieved major importance in agriculture. However, due to high inertial and pressing forces, these big balers induce vibrations that subject the tractor cab to unpleasantly strong pitching movements, which put a strain on the tractor driver. With intelligent vibration damping, these vibrations are almost completely eliminated on models of the 7R tractor series in conjunction with balers from John Deere. Based on the signals of the acceleration sensors in the GPS receiver and other signals within the tractor, the continuously adjustable drive is adjusted with the plunger frequency of the baler so that a periodic change of the speed setting compensates for the vibrations created. No additional hardware is required for this purpose. This technology specifically developed for active vibration reduction means a considerable relief for the health and performance of tractor drivers. [ATTACH type="full" alt="837327"]837327[/ATTACH] [B]20. John Deere Walldorf GmbH & Co. KG (Hall 13 stand C40)[/B] Proactive throughput controller Throughput controllers on combine harvesters cannot react to changes in the harvested crop conditions until the material is already in the harvesting header, in the intake duct or in the threshing unit. With extreme changes in harvesting conditions, such as lying crops, partial gaps and weed areas, result in correspondingly high over- or under-loading, and combine driving speeds that change too drastically. The throughput controller is then often deactivated. John Deere solves this problem with the proactive throughput controller. 3D stereo cameras detect the crop situation in front of the combine just like a proactive driver. Crop heights, lying crop with lying direction, gaps, driving lanes and harvested areas are detected and classified by so-called "machine learning". In addition, the system also uses the data of vegetation models, which consist of biomass maps generated via satellite or other technologies. Camera and biomass signals can also be used alone in each case. As soon as the combine harvester begins harvesting, the system calculates regression models from the real-time and the geo-referenced vegetation data. The harvesting conditions in front of the machine are therefore known, as are the strategies still specified by the driver. The combine harvester merges all sensor values and then adjusts its driving speed and its settings to the harvest situation. The proactive combine harvester operates automatically for the first time, just like a combine harvester operated by a proactive, experienced driver. With this technology, John Deere has taken a major step in the further development of the automation of threshing crop harvesting. [/QUOTE]
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