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Agritechnica 2019 Gold and Silver Awards
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<blockquote data-quote="Agritechnica News" data-source="post: 6567963" data-attributes="member: 142288"><p>[ATTACH=full]834799[/ATTACH]</p><p></p><p><strong>5. AMAZONEN-WERKE H. Dreyer GmbH & Co. KG (Hall 09 stand H19)</strong></p><p></p><p>EasyMix</p><p></p><p>Significant amounts of mixed fertilisers are prepared at decentralised locations with the objective of using inexpensive individual fertilisers while at the same time applying several nutrients in the desired ratio. Apart from some mixed fertilisers produced as standard with a defined nutrient ratio and defined initial components, up until now there have been no aids, e.g. spreading charts, for the majority of these customised fertiliser mixtures that would enable fertilisers spreaders to be optimally adjusted in accordance with the properties of the mixture produced.</p><p></p><p>With the "EasyMix" app from Amazone, used with the company’s two-disc spreaders, it is now possible to estimate the lateral distribution of the individual components and to determine the optimum fertiliser spreader adjustment for the mixture before it is produced. This is achieved by entering the planned mixing components, the fertiliser spread properties and the desired working width. Alternating effects of the individual components on the spreading disc and their varying flight behaviour are taken into account when determining the expected spreading quality.</p><p></p><p>As a result, the app reduces the danger of uneven nutrient distribution resulting from unsuitable mixture components, an excessively large working width or an incorrect fertiliser spreader adjustment.</p><p></p><p></p><p>[ATTACH=full]834800[/ATTACH]</p><p></p><p><strong>6. BISO GmbH, Austria (Hall 05 stand E28)</strong></p><p></p><p>3D Varioflex</p><p></p><p>Additional crop rotations with a higher share of legumes require cutting systems with flexible cutterbars to harvest the crops located close to the surface of the ground with the lowest possible pick-up losses. However, these cutting systems have to be suitable for both grain and rape, as is customary for the ordinary auger cutting systems with a variable cutting table length.</p><p></p><p>With the 3 D Varioflex cutting system, BISO has combined the advantages of a flexible cutter bar with a variable cutting table length for the first time. The cutterbar is height-adjustable over a total of 25 cm and the contact force of the cutterbar on the ground is measured with force sensors in its parallelogram carriers. The contact pressure range can be adjusted from 0 to 50 kg, so that the carriers connected at the rear with the frame actively guide the cutterbar over bumps in the ground. The vertical movements of the variable cutting table benefit from scale-like overlapping guide plates.</p><p></p><p>BISO presents provides farmers with an auger cutting system with active adjustment of the cutterbar to the ground for the first time. It can be used instead of a conventional cutting system with a variable cutting table length and a flexible cutting system, therefore reducing costs.</p><p></p><p>[ATTACH=full]834801[/ATTACH]</p><p></p><p><strong>7. CLAAS - Vertriebsgesellschaft mbH Deutschland (Hall 13 stand C02)</strong></p><p></p><p>CEMOS AUTO Performance</p><p></p><p>This system is a combined engine output/forward speed control on forage harvesters.</p><p></p><p>Capacities and engine powers of forage harvesters have increased during the past few years. Yet, the full engine power that is currently available on a high-performance harvester is only exploited to the full when there is good supply and constant flow of maize or wholecrop silage into the machine. However, only 500-600hp is needed when harvesting wilted silage. Running the engine at full power when this is not required by the work at hand needlessly increases fuel consumption.</p><p></p><p>CEMOS AUTO Performance matches engine output to the work at hand by altering the power curve. In the field, the operator starts the assistance system and selects an engine speed, a forward speed and one out of 10 engine power curves. After the autopilot is started, the forager and the tractor trailer combination start working. The preset engine speed is accepted directly by the forager and is maintained by the automatic control system. When it turns out that the preset power output is too high for the present crop, the system automatically switches to a lower and more efficient output range while maintaining the current forward speed and engine speed. Vice versa, the system switches to a higher output range when harvesting higher-yielding stands.</p><p></p><p>The automatic engine output control eases the strain on both the forager and driver in a very convenient way, and leads to environment-friendly fuel savings of up to 15 percent</p><p></p><p>[ATTACH=full]834802[/ATTACH]</p><p></p><p><strong>8. CLAAS - Vertriebsgesellschaft mbH Deutschland (Hall 13 stand C02)</strong></p><p></p><p>APS Synflow Walker</p><p></p><p>The threshing output of walker combine harvesters cannot be further increased by enlarging the threshing and separating units, as the volume of the machines, and the width in particular, are limited. Consequently, up until now the tangential threshing unit in walker combines was supplemented with a separator drum located downstream of the threshing unit or an upstream pre-accelerator drum. However, each additional drum increasingly destroys the straw and reduces the accessibility to the threshing and separating concaves.</p><p></p><p>With the APS Synflow Walker, Claas combines the two threshing and separating systems. The familiar accelerator follows a threshing drum increased in diameter to 75.5 cm. An additional separating drum with a 60 cm diameter separates residual grain from the straw, and is followed by the impeller. As a result, despite the reduced threshing concave wrap angle, threshing path length has been increased compared to the previous model. The harvested crop therefore flows straighter in an energy-saving manner that is gentle to the straw. All rotating speeds and concave gaps are synchronised, eliminating the need for additional adjustments, and the intensive threshing segment can be activated with a switch. The threshing and separating concave parts can be pulled out to the side on a tangential system for the first time, which greatly reduces the conversion effort between crops.</p><p></p><p>The APS Synflow Walker, therefore, increases the threshing output and is gentle on straw, while at the same time improving the quality of work achieved by the tangential threshing and separating system.</p></blockquote><p></p>
[QUOTE="Agritechnica News, post: 6567963, member: 142288"] [ATTACH type="full" alt="834799"]834799[/ATTACH] [B]5. AMAZONEN-WERKE H. Dreyer GmbH & Co. KG (Hall 09 stand H19)[/B] EasyMix Significant amounts of mixed fertilisers are prepared at decentralised locations with the objective of using inexpensive individual fertilisers while at the same time applying several nutrients in the desired ratio. Apart from some mixed fertilisers produced as standard with a defined nutrient ratio and defined initial components, up until now there have been no aids, e.g. spreading charts, for the majority of these customised fertiliser mixtures that would enable fertilisers spreaders to be optimally adjusted in accordance with the properties of the mixture produced. With the "EasyMix" app from Amazone, used with the company’s two-disc spreaders, it is now possible to estimate the lateral distribution of the individual components and to determine the optimum fertiliser spreader adjustment for the mixture before it is produced. This is achieved by entering the planned mixing components, the fertiliser spread properties and the desired working width. Alternating effects of the individual components on the spreading disc and their varying flight behaviour are taken into account when determining the expected spreading quality. As a result, the app reduces the danger of uneven nutrient distribution resulting from unsuitable mixture components, an excessively large working width or an incorrect fertiliser spreader adjustment. [ATTACH type="full" alt="834800"]834800[/ATTACH] [B]6. BISO GmbH, Austria (Hall 05 stand E28)[/B] 3D Varioflex Additional crop rotations with a higher share of legumes require cutting systems with flexible cutterbars to harvest the crops located close to the surface of the ground with the lowest possible pick-up losses. However, these cutting systems have to be suitable for both grain and rape, as is customary for the ordinary auger cutting systems with a variable cutting table length. With the 3 D Varioflex cutting system, BISO has combined the advantages of a flexible cutter bar with a variable cutting table length for the first time. The cutterbar is height-adjustable over a total of 25 cm and the contact force of the cutterbar on the ground is measured with force sensors in its parallelogram carriers. The contact pressure range can be adjusted from 0 to 50 kg, so that the carriers connected at the rear with the frame actively guide the cutterbar over bumps in the ground. The vertical movements of the variable cutting table benefit from scale-like overlapping guide plates. BISO presents provides farmers with an auger cutting system with active adjustment of the cutterbar to the ground for the first time. It can be used instead of a conventional cutting system with a variable cutting table length and a flexible cutting system, therefore reducing costs. [ATTACH type="full" alt="834801"]834801[/ATTACH] [B]7. CLAAS - Vertriebsgesellschaft mbH Deutschland (Hall 13 stand C02)[/B] CEMOS AUTO Performance This system is a combined engine output/forward speed control on forage harvesters. Capacities and engine powers of forage harvesters have increased during the past few years. Yet, the full engine power that is currently available on a high-performance harvester is only exploited to the full when there is good supply and constant flow of maize or wholecrop silage into the machine. However, only 500-600hp is needed when harvesting wilted silage. Running the engine at full power when this is not required by the work at hand needlessly increases fuel consumption. CEMOS AUTO Performance matches engine output to the work at hand by altering the power curve. In the field, the operator starts the assistance system and selects an engine speed, a forward speed and one out of 10 engine power curves. After the autopilot is started, the forager and the tractor trailer combination start working. The preset engine speed is accepted directly by the forager and is maintained by the automatic control system. When it turns out that the preset power output is too high for the present crop, the system automatically switches to a lower and more efficient output range while maintaining the current forward speed and engine speed. Vice versa, the system switches to a higher output range when harvesting higher-yielding stands. The automatic engine output control eases the strain on both the forager and driver in a very convenient way, and leads to environment-friendly fuel savings of up to 15 percent [ATTACH type="full" alt="834802"]834802[/ATTACH] [B]8. CLAAS - Vertriebsgesellschaft mbH Deutschland (Hall 13 stand C02)[/B] APS Synflow Walker The threshing output of walker combine harvesters cannot be further increased by enlarging the threshing and separating units, as the volume of the machines, and the width in particular, are limited. Consequently, up until now the tangential threshing unit in walker combines was supplemented with a separator drum located downstream of the threshing unit or an upstream pre-accelerator drum. However, each additional drum increasingly destroys the straw and reduces the accessibility to the threshing and separating concaves. With the APS Synflow Walker, Claas combines the two threshing and separating systems. The familiar accelerator follows a threshing drum increased in diameter to 75.5 cm. An additional separating drum with a 60 cm diameter separates residual grain from the straw, and is followed by the impeller. As a result, despite the reduced threshing concave wrap angle, threshing path length has been increased compared to the previous model. The harvested crop therefore flows straighter in an energy-saving manner that is gentle to the straw. All rotating speeds and concave gaps are synchronised, eliminating the need for additional adjustments, and the intensive threshing segment can be activated with a switch. The threshing and separating concave parts can be pulled out to the side on a tangential system for the first time, which greatly reduces the conversion effort between crops. The APS Synflow Walker, therefore, increases the threshing output and is gentle on straw, while at the same time improving the quality of work achieved by the tangential threshing and separating system. [/QUOTE]
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