Farmers are under pressure to produce the best possible silage in an environment of high input costs, labour scarcity, and a requirement for better safety practices. We already know the importance of variety choice, harvest timing, and the use of High Oxygen barrier films supplied by Silostop. Another part of the jigsaw is the management of clamps, filling, covering, and emptying them, which is where machinery can play a key role. We review some innovations below which might help you and your team on the farm.
Harvesting
Efficient silage harvesting is crucial for maintaining quality and reducing wastage. Innovations in harvesting machinery are continuously evolving to address these needs. Advanced forage harvesters are now equipped with precise sensors and automation technologies that ensure optimal cutting length and consistent processing of the crop. These machines can adapt to varying field conditions and crop types, ensuring that the harvested silage retains maximum nutritional value. Modern forage harvesters also feature improved fuel efficiency and reduced emissions, aligning with sustainable farming practices.
Filling
Anyone that has worked in the UK and German biogas industry will recognise the unique PistenBully, which has been proving itself on larger silage bunkers and clamps for well over a decade. The Original PistenBully is designed to manage ski slopes, working on extreme angles and uneven surfaces—situations very much like those on silage clamps and bunkers. Because they have such a low centre of gravity, wide tracks, and high horsepower with a very dynamic blade, they make an excellent and safe tool to spread, level, and shape clamps alongside conventional heavy tractors.
- You can see it in action here: PistenBully makes light work of silage.
- Read about it here: PistenBully article.
- Buy your own here (UK): Off Piste Agri.
Covering
Tyre sidewalls are the choice of many large farming operations to cover silage piles. They are a simple solution for holding covers in place. A tyre sidewall is literally the rubber wall of a tyre removed when the tyre is sent for recycling at the end of its life. They are most often used in larger feedlot operations where labour is easier to source. Some silage piles or bunkers will require thousands of tyre sidewalls, which have to be placed onto the silage films and covers in a grid pattern by hand.
Northern Irish Bally Heather Engineering have the solution to make this job easier. The TYRESHIFT looks like a long, very slow chainsaw that mounts to the headstock of a loader. The sidewalls are loaded onto the length of the machine, driven to the silage pile or bunker, then ejected into place by chain onto the clamp on top of covers.
- Click here for more information: TYRESHIFT.
Emptying
Emptying the bunker or clamp is the final part of the silage-making process, and this remains a relatively laborious operation. Though it may not take a huge part of the day to fill a TMR mixer or feed wagon, this time does add up over the year to hundreds of man hours. One concept designed to automate this procedure is the Wasserbauer Feeding system. Very new in the market, the system uses a totally automated system of defacers and augers to cut the required feed from the clamp into a vacuum system, which pipes the silage into the automatic feeding robots, which mix it with the rest of the ration. It’s an incredible idea which looks best suited to smaller units but in principle could be scaled up for larger units.
Future Prospects and Technological Integration
As the agricultural industry continues to evolve, the integration of advanced technologies into silage management is becoming more prevalent. The use of data analytics, IoT (Internet of Things), and machine learning is poised to revolutionise how silage is managed. For instance, smart sensors can monitor silage quality in real-time, providing farmers with crucial data on temperature, moisture levels, and potential spoilage. This allows for proactive management and immediate corrective actions, ensuring the highest quality feed for livestock.
Furthermore, the adoption of drones for aerial monitoring of silage piles can provide detailed imagery and data analysis, helping farmers identify issues such as uneven compaction or areas prone to spoilage. These insights can lead to more targeted and efficient management practices.
Conclusion
The innovations in silage management machinery represent a significant leap forward in addressing the challenges faced by modern farmers. From advanced harvesting equipment to automated feeding systems, these technologies enhance efficiency, improve feed quality, and promote sustainable farming practices. As the industry continues to embrace these advancements, the future of silage management looks promising, with the potential for increased productivity and environmental stewardship.
By staying informed about the latest developments and adopting cutting-edge technologies, farmers can ensure they are well-equipped to meet the demands of a rapidly evolving agricultural landscape. The ongoing innovation in silage management machinery is not just about keeping up with trends but about paving the way for a more efficient, sustainable, and profitable farming future.
Click here for more information - https://www.facebook.com/profile.php?id=100070296031847