The John Deere bale weighing system provides bale weights throughout the baling process. With sensors mounted to the pre-compression chamber floor, it provides bale weights on a flake-by-flake basis. Knowing the flake weight helps the operator make more consistent bales. The current bale weight and previous bale weights can be displayed on the monitor.
The BalerAssist drivetrain system is an industry-exclusive offering that gives the operator the ability to hydraulically control the drivetrain. The system is able to operate in both the forward direction as well as the reverse direction and at two speeds each direction with a maximum speed of about 4 plunger strokes per minute.
John Deere value:
The BalerAssist drivetrain system can be controlled from the display or from a Bluetooth® wireless system remote.
From the display, speed adjustments can be made to the following categories:
The Bluetooth remote has the following functions with icons that match the display:
Bluetooth is a trademark of Bluetooth SIG Incorporated.
The John Deere-designed double-tie knotting system is gear and driveline driven to ensure the needle-to-plunger timing is maintained throughout the life of the baler.
The needle lift crank and clutch rocker arm are made of hardened cast iron to improve strength and durability of the knotter clutch. The gearbox drives the system around 360 degrees to complete a tie.
On the L331 and L341 Large Square Balers, the producer can choose between a mechanical trip system or an electrical trip system.
The electrical trip system offers the following advantages:
John Deere large square balers (LSBs) are ISOBUS compatible which enables them to work with any ISOBUS monitor system.
Baler control can also be incorporated into the CommandCenter™ on R Series Tractors as long as the tractor is ordered ISOBUS ready (GS-ready wiring harness option code 8064 or GS AutoTrac™-ready wiring harness option code 8067on 6R Tractors).
Current GreenStar™ (GS) displays, including the touchscreen 2630, 1800 as well as the GS 2600, are compatible for customers who already own a John Deere ISOBUS display.
The display main screen is user selectable allowing for customization so the customer sees what they want where they want. With more information available from the moisture and weighing systems the operator can select what they care most about.
The new menu is controlled over what softkeys are shown on the main page allowing users to navigate to what they need faster and easier.
Balers that will be utilized on non-ISO tractors will require a GS display as well as a conversion harness to connect the display and the baler.
One series LSBs offer a manual pressure control mode, allowing the operator to continue baling in the event of an electricalfailure.
Information and adjustments available on the display:
PhiBer accumulator integration into the baler display.
PhiBer is a trademark of PhiBer Manufacturing Inc.
The John Deere integrated moisture sensor for large square balers provides bale moisture levels throughout the baling process. Mounted forward in the bale chamber, it provides timely information for real-time decisions. This sensor was designed by John Deere specifically for the application, and uses an integrated display for less clutter in the cab. It operates in a complete range of moistures from dry to wet crops.
This sensor can be used in conjunction with the John Deere preservative system to adjust application rates.
Preservative application allows harvesting hay at slightly higher moisture levels without worrying about spoilage or heat. Using preservative increases the baling window by allowing operators to begin baling earlier in the day and continue baling later into the evening, this greatly decreases the dependency on weather. This application system is capable of preserving hay up to a 30 percent moisture level without compromising hay quality.
NOTE: Care must be exercised not to exceed the moisture levels recommended by preservative manufacturers in order to avoid spoilage.
The one series LSB offers a John Deere designed preservative application system. The John Deere system is integrated with the John Deere moisture sensor. The high-accuracy moisture sensor enables more accurate application of preservative. Crop detection sensors detect crop to ensure that preservative is only being applied when crop is present.
Factory installation of the preservative system is available and eliminates any baler modifications that were previously required when performing a dealer installation. The factory installation tests all electrical components of the preservative system before it leaves the factory.
The preservative applicator includes the following:
A wear parts box will be available for the L331 and L341 Large Square Balers (LSBs). The wear parts box includes 18 of the most common wear parts identified by customer support and engineering. Having these parts on hand will help producers keep their balers running during the season. The parts box is an option that can be ordered when configuring the baler.
NOTE: The wear parts box is for the one series baler. A lot of the parts included in the box are not able to be retrofit to the L330 or L340.
Parts come packaged in a durable container that can be used in the truck, shop, or field.
Magnetic parts lists help producers keep track of parts they need.
|Pickup stripper bolts||4|
|Left-hand cam arm||1|
|Right-hand cam arm||1|
|Cam arm bearing||4|
|Cam arm bolt||2|
|Needle roller kit||6|
|Bottom knives bolts||6|
|Bottom knives center||2|
|Bottom knives end||1|
The premium MegaWide pickup is available for the L331 and L341 Large Square Balers. The premium pickup offers larger components to increase the durability and reliability of the pickup.
Changes to the premium Megawide pickup include:
The spider gears on the premium pickup have bearings that give the reel increased durability (longer life), as well as offering a more quiet operation of the pickup. The spider gears are also larger in diameter for increased life.
L331 and L341 Large Square Balers (LSBs) come standard with double-tie knotters.
John Deere-designed knotters are designed for performance, reliability, and reduced maintenance requirements. The auto-lube system is integrated into the knotter frames, and two internal grease ports reduce the time spent on pre-baling maintenance.
Integration of the lube system block into the knotter frame reduces the number of grease lines required for each knotter.
The integrated grease block results in a reduction in the amount of grease lines required to grease the knotter system and the number of grease line connection points. Fewer feet of grease lines and fewer connection points mean less maintenance and more time baling.
If service to the knotter stack is required, the knotters are positioned using an adjustment screw instead of shims. This saves time by having the ability to make adjustments at any point of assembly.
The split-knotter frame is directly mounted to the intermittent gear so the frame can be removed without servicing the knotter stack.
Like the John Deere single-tie knotter, the billhook cam and wiper arm plate are removable and individually serviceable. This allows replacement without replacing large castings or assemblies.
Instances where competitors must adjust the wiper arm to the billhook with a hammer, the John Deere solution allows the setting to be made with two bolts. This provides a more precise and repeatable setting, which results in more consistent knot wipe-offs.
|Connection point reduction||8||12|
|Lube line reduction (m, ft)||16.8 m
The one series LSBs store twine in single-row twine boxes. The twine is then routed to the sealed gear tensioners. The sealed tensioner gears have been proven to provide more consistent twine tension during knot formation. This increases knotter performance and consistency. Once the correct bale length is achieved, the tie system clutch is activated.
The pickup is designed and built by John Deere in Ottumwa, Iowa. The John Deere MegaWide large square balers (LSBs) pickups use a low-profile pickup drum with a large-diameter roller baffle to efficiently pick crop up from the field. The performance of the roller baffle compressing the crop against the pickup tines means more crop in the bale and fewer leaves and crop left in the field.
Mega and MegaTough pickup teeth are base equipment:
Both pickup widths use a heavy, C-channel construction for the toothbar assembly. The pickup toothbars are divided into two half sections that mount to a center spider for increased strength and even crop feeding.
Semi-pneumatic gauge wheels provide smooth ground gauging over uneven terrain and protection to the pickup.
Converging wheels are available on the 2.2-m (7.2-ft) pickup to increase the overall feeding width to 2.8 m (9.2 ft):
The pickup float springs are positioned for excellent flotation.
|Length||60 up to 300 cm
24 up to 118 in.
|Intake width||220 cm
|Pickup diameter||25.6 cm
|Number of tine bars 4-5||Four|
|Tine spacing||6.6 cm
|Number of plunger strokes||45 spm|
|Plunger stroke||69.5 cm
|Density control||Three hydraulic cylinders|
|Bale chamber length||305 cm
|Control||ISOBUS - GreenStar? (GS) 2 1800 or GS3 2630|
|Number of knotters||Four|
|Twine capacity (rolls)||30|
|Knives||11, 7, or 6|
|Cutting length||44 mm
or 88 mm
|Knife protection||Individual spring|
|Slide out floor||Yes|
|Single axle||600/50/22.5 or 710/40R/22.5|
|Tandem axle steered (optional)||500/55/20 or 550/45/22.5|
|Brakes system||Optional hydraulic|
|Minimum tractor requirement||87 kW
115 PTO hp