Starting in model year 2014, hydraulic drives became standard equipment on the 1910 air carts, offering consistent drive power to the meters. Hydraulic drives come standard with variable-rate drive and hydraulic calibration.
The drive system reduces a large number of mechanical and electrical components including transmissions, clutches, chain drives, sprockets, gears, and shafts by replacing them with a hydraulic drive motor, electrohydraulic valve, and a chain drive connecting the motor and meter.
Each meter has its own hydraulic drive motor and can be set independently of each other. It is recommended to use power beyond or another selective control valve (SCV) if power beyond is not available. Hydraulically powered meters minimize the pulsing effect found in chain driven systems. The motor speed is controlled by an electrohydraulic valve mounted on the motor.
Operators can shut off any meter from the in-cab display. The cart software comes with six pre-loaded rates for seeding. Map based prescriptions can be used with variable rates.
The system uses wheel speed from the cart to determine ground speed. If the cart wheel speed drops below 3.2 km/h (2 mph), the system will use tractor speed, if available, to maintain proper application rates when turning or coming out of a headland turn.
Hydraulic drive motor
Starting in model year 2014, hydraulic variable-rate drive became standard equipment for 1910 air carts. Quick changing rates are important for maintaining accuracy with variable-rate prescription applications.
Meter drive system
Meter drive system with safety shield installed
Hydraulic calibration makes it convenient to rotate the cart meters to perform accurate calibration.
More than one meter can be calibrated at a time. Following the below instructions for 1910 air carts:
Weigh bag, tare scale
Add bag to bottom of meter
Rotate the meters twice to charge them with product
Turn the meters until they stop
Weigh the bag with product inside
Enter the weight of the product on the in-cab display
Calibration tools and equipment
Operator performing calibration
Operators can perform meter verification without driving. In the meter verification page on the in-cab display, select the meter(s) to verify and the stationary checkbox. When the operator engages the calibration switch, the meter will turn the number of revolutions to meter out the amount of product for the area selected.
NOTE: It is highly recommended to have power beyond and load sense installed on the tractor hydraulic system to power the hydraulic drives. This feature will save fuel, as well as reduce hydraulic heat, while providing maximum performance by the tractor hydraulic system to the cart hydraulic drive motors. By having load sense, the tractor is only required to provide the pressure and flow that the drives require. Power beyond and load sense capability have been tested and approved for all 8x00, 9x00, and newer John Deere tractors. Older John Deere tractors and competitive tractors have not been tested for functionality. If power beyond is not available, an additional SCV will be needed to power hydraulic drives. See link for more information on power beyond kits.
With the RelativeFlow blockage sensing, operators can see the flow rate of both seed and fertilizer from inside the tractor cab. Sensors on all primary towers and secondary hoses monitor the relative product flow, giving you a better view of the flow rate of both seed and fertilizer from the cart to the opener from inside your tractor cab. This exclusive technology can help you identify any problems before potential blockage occurs.
RelativeFlow Blockage is available on the following models:
P540 - 12.2-m (40-ft)
P556 - 17.1-m (56-ft)
P576 - 23.2-m (76-ft)
N500C - all widths
1890 - 15.2-m (50-ft) and 18.3-m (60-ft)
N530F - 9.1-m (30-ft)
N540F - 12.2-m (40-ft)
N543F - 13.1-m (43-ft)
N560F - 18.3-m (60-ft)
RelativeFlow Blockage is compatible with hydraulic drive carts for model year 2014 and newer 1910, model year 2013 and newer 550 Carts, C650 and C850 Air Cart.
Below are the GreenStar™ 3 2630 Display screens for the blockage monitoring system. For complete details and information, see the owner’s manual.
Blockage monitoring screen on GreenStar™ 3 2630
The RelativeFlow sensing chart shows the amount of flow through each sensor on the selected tower. Sensitivity for the blockage system can be adjusted if desired, as shown below.
Blockage monitoring screen on GreenStar 3 2630
Blockage warning sensitivity allows the producer to set and change the sensitivity of the sensors to meet their preferences. Increasing the sensitivity means the system is more likely to show a false blockage, while less sensitivity means the system is more likely to miss a blockage.
Multiple run-page alarm behavior options are available for selection.
Blockage monitoring screen on GreenStar 3 2630
Below are the Gen 4 display screens for the blockage monitoring system on the N500C.
For complete details and information reference, the owner’s manual.
RelativeFlow Blockage configured run page
The SeedStar™ system run page displays the five major run settings. Clicking on any of the tiles will take an operator to that specific page (shown below).
Operators can zoom into flow details by meter section when selecting blockage tiles
Operators can zoom into the row level to access row/sensor information and turn a sensor on/off independently
Blockage sensitivities and alarm delays are all set up on one easy-to-navigate screen
Blockage alarm delays can be set up by clicking on the advanced settings button from the blockage set-up screen.
A blockage delay is how long a blockage should occur before an alarm is sounded.
The blockage alarm reminder is how often the alarm should sound when a blockage occurs.
The meter on delay is the time from when the meter is turned on until the blockage sensor should start monitoring for blockage.
The meter off delay is the time from when the meter is turned off until the blockage sensor should start monitoring to verify no flow.
For more detailed information, see the owner’s manual.
Air tools with Relative Flow Blockage are not compatible with 1910 air carts with ground drive.
SectionCommand is an effective, integrated, exclusive John Deere solution that reduces costly overlaps and skips that can waste seed and fertilizer, while offering more consistent fields that improve the potential of your yield and your bottom line.
Thanks to individual meter sections that control commodity flow, you can maintain the right application rates and row-to-row accuracy. This helps stimulate even crop emergence during the growing season and promotes consistent crop maturity at harvest. SectionCommand controls output from all meters on the cart up to eight sections.
Owner benefits include:
Improved consistency of crop maturity at harvest
Improved consistency during emergence and growing season
Reduced seed input cost
Reduced fertilizer input cost
Increased time between fills due to input savings
SectionCommand is base equipment with optional deduct on all John Deere 1910 and C-Series Air Carts. Each tank and meter will receive SectionCommand components. A two-tank cart will control sections out of both tanks, a three-tank cart will control sections out of all three tanks, and the C-Series Air Carts will control sections out of all four tanks. SectionCommand is also available as an attachment for field conversion (AFC) for all 1910 hydraulic drive carts. See AFC kit story for more information.
SectionCommand controls seed and fertilizer output by closing and opening gates on the bottom side of the meter. When the gates are open, commodity is metered out, and when closed, commodity stays and continues to rotate within the meter. The meter stays full at all times so immediately when the gate opens, the commodity can flow into the primaries and out to the tool. Since each meter section has its own gate, application rates and row-to-row accuracy are not compromised. The gates are utilized to control commodity output on all sections. Once the last gate needs closed, the entire meter will stop turning, stopping product flow.
Seeded fields photo
When commanded, electric over-hydraulic solenoids engage actuators to instantaneously close the gate for the needed section. The actuators are powered via hydraulics from the same circuit as the hydraulic drive motors. When power is cut, oil is diverted to retract the actuators and open the gates. The retraction is both powered and spring assisted, so it will always default to the seeding position. The oil from SectionCommand drains back through the fan motor case drain line and is coupled with an accumulator on the valve block to provide extra drainage capacity.
SectionCommand components as seen on back side of meter
SectionCommand components as seen on front side of meter
SectionCommand incorporates gate detection, which gives producers the satisfaction of knowing the gates are in position as commanded. Magnets on the back side of the gates are used in close proximity to the gate detection sensors to determine if the gates are open or closed. Should a gate not be in the commanded position, an alarm will alert the operator of the gate(s) in question. The blockage warning system works in conjunction with SectionCommand to give further confidence whether a given section is seeding or not when commanded.
SectionCommand meter cartridge showing one gate closed and magnet on backside of gate
Gate detection sensor
For maximum performance, SectionCommand should be controlled through John Deere Section Control. Coupling SectionCommand with John Deere Section Control provides the ultimate in precision seeding and productivity. If a Section Control activation is held by the producer, that same activation can be utilized for SectionCommand.
SectionCommand introduces the orange roller, which has the same number of flutes and spacing as the blue roller, but shorter flutes. It is for use only with SectionCommand when seeding seeds larger than 6 mm (0.25 in.) in diameter (soybeans, chick peas, etc.). The orange roller is not for use with cereal grains or fertilizer.
Orange roller for use only with large seeds and SectionCommand
Due to the varying lengths of product delivery hose used across the drill, SectionCommand has a built-in equalizer feature to ensure consistent product delivery across the width of the drill when entering and exiting headlands. The software allows the producer to set the on/off product delivery times separately for the outermost opener and the innermost opener on the drill. Product delivery times are inputted for each tank on the cart, and the software creates a time delay for actuation of the gates.
Operators continually seek easier and faster operations while seeding and reduce time spent filling and unloading.
Conveyance on 12,334-L (350-bu), 15,200-L (430-bu), and 19,400 (550-bu) carts is controlled by hydraulic cylinders on the conveyance arms. The cylinders move the main arm, swing arm, and elevation. Now operators can easily deploy the conveyance system with less effort.
Input to the system is received from one of two remotes. Each operator receives a wireless remote that can be operated from anywhere near the cart and a tethered remote that can be operated from ground level near the front meter. Each remote controls the same functions and gives flexibility of system control should two operators be in the area during cart fill and unload.
The remotes can start, stop, and control speed of the conveyance system. For added security, the speed control arm is retained on the conveyance and can override the remotes to slow down or stop the belt or auger.
Securing the auger or conveyor is now easier and gives the operator a greater sense of security with over-center latches on both the top and bottom of the conveyance.
Both the main and swing arms are longer giving operators greater flexibility in tendering vehicle parking locations.
Receiver and tethered remote
A - Remote on/off
B - Conveyance stop/start
C - Conveyance slow down/speed up
D - Tilt/elevation
E - Main arm retract/extend
F - Swing arm retract/extend
Left-hand side of cart in transport
Left-hand side of cart in fill position
Left-hand side of cart in unload position
Low-profile hopper folder and unfolded
Low-profile hopper folder and unfolded
For operators who fill carts from semi hopper bottoms or who desire full width meter clean out, John Deere has partnered with KSi® Conveyors to provide a low-profile hopper. The hoppers are compatible with all hydraulic conveyance carts. The hoppers utilize conveyor belts and are available for both the 254-mm (10-in.) auger and 305-mm (12-in.) conveyor. The hoppers are longer than competitive offerings on similar cart sizes.
The hoppers easily fold over to keep mud and rocks from being slung into the hopper and for tight maneuverability during transport and seeding. During fill and unload, flip the hoppers back over to move product.
Each hopper comes with both a large and small screen for optimizing product flow and catching foreign material during fills. Rubber skirting around the hopper provides flexibility during use and adds capacity to the hopper.
Please contact KSi Conveyors for ordering information.
KSi Conveyors Inc. c/o Bruce Frank 1(888) 574-3277 +1(815) 457-2403 firstname.lastname@example.org http://www.ksiconveyors.com/jddealer
To win big in small grains, it takes a seeding solution that superseeds your expectations. John Deere delivers with a complete line of everything you need – and the sizes you want – to seed for success. Air-hoe drills. Commodity air carts. No-till air drills. Openers. Fertilizer attachments. Central commodity systems. Box drills. Plus precision ag technology to stretch your productivity to higher levels. But it’s far more than iron and technology. It’s the exceptional agronomic know-how and unsurpassed dealer support in all phases of production to keep you running. With our latest additions to equipment and openers, our seeding solutions deliver the next-generation performance you need to help you reach the full potential of each seed. That’s our commitment to you.
SectionCommand components on 1910 Cart with meter cartridge removed
SectionCommand on 1910 Air Cart
There are four main components needed to add SectionCommand onto 1910 hydraulic drive air carts:
1. SectionCommand AFC kit (listed in the table below, order one kit per meter), kit includes:
SectionCommand valve block and meter housing components
Gate detection controller
Electronic power module (EPM)
Associated harnessing, hardware, and brackets
2. Hydraulic hoses - Dealer is responsible for fabricating and sourcing hoses.
3. SectionCommand meter cartridges will be needed for each meter. These meter cartridges contain gates, gate detection sensors, and a secondary meter lock-down. See Meter cartridges for field conversion for more information.
4. New Operator’s Manual including SectionCommand. Order A98462 or newer 1910 operator’s manual when installing onto a model year 2013 19,400-L (550-bu) cart or all model year 2014 carts.
Ensure the latest version of software is installed on both cart controller and in-cab display.
All SectionCommand kits are sold in eight-run configurations. If pairing the cart with a tool of seven runs or less, order one - BA32812 meter run reduction kit per cart. This kit contains parts to block off runs not used when pairing a cart with a tool of seven runs or less.
NOTE: For SectionCommand to operate properly, it must be installed on each meter.
Growers around the world are always looking for ways to become more productive. The John Deere Seeding Group is continually looking for ways to help these growers increase productivity.
The 1910 Commodity Cart is one of the best ways to maximize productivity. By providing growers with several different tank configurations, the 1910 Cart allows growers to get the most benefit from input costs and time in the field.
The tanks are a semi-transparent, poly material. Owner benefits include:
Ease of quickly viewing tank level from outside the cart
Secondary manifolds with 25-mm (1-in.) diameter lines evenly distribute the seed and/or fertilizer from the primary manifold(s) to the furrow openers.
Primary hoses are color coded to conveniently connect the air distribution kit from the 1910 Cart to the seeding tool.
The 25-mm (1-in.) secondary lines used for seed are clear with a black spiral. For double-shoot air kits, hoses are clear with a green spiral.
The secondary manifold is made of durable, maintenance-free ethylene-propylene molded (EPDM) rubber. Features of the secondary manifold:
Rust resistant, important when applying fertilizer or treated seed
No tools required to remove lid
No long bolt in the secondary tower
Lid is tethered to the manifold
The outlet ports are numbered
Primary hoses are color coded to conveniently connect
High-output, hydraulically driven fan
Fan as seen on 19,400-L (550-bu) cart
The 1910 Commodity Air Cart uses an airstream to gently deliver seed and/or fertilizer to the openers. A strong, consistent airstream is necessary to keep product moving without plugging the air runs, while making sure damage is not occurring to the seed.
The large 450-mm (17.6-in.) diameter fan generates a low-velocity, high-volume airstream that carries the product to the openers. By using a high volume of air, there is less chance of damaging seed, while decreasing the likelihood of plugging the air system.
The fan is driven by the tractor's hydraulic system. It requires approximately 53- to 75-L/min (14 to 26-gpm) oil flow for operation.
IMPORTANT: The 53- to 75-L/min (14- to 26-gpm) is for the 1910 Cart fan only; additional hydraulic capacity from the tractor is also required for the hydraulic drive motors and for the seeding tool, depending on what seeding tool is chosen.
NOTE:Requires motor seal drain kit.
Stationary double-shoot primary manifold
Primary manifolds are mounted below the tanks with 63.5-mm (2-1/2-in.) diameter tubes to distribute seed/fertilizer evenly to the secondary manifolds, which are located on the seeding tool.
63.5-mm (2-1/2-in.) primary lines are clear with either a black or green spiral:
Black spiral for single-shoot systems
Black and green spiral for double-shoot systems
Stationary single-shoot or stationary double-shoot primary manifolds are available.
Single-shoot air systems are used when seeding only or when applying a starter fertilizer along with the seed. Double-shoot air systems are used when applying higher levels of fertilizer, allowing simultaneous application of seed and fertilizer by placing them in two different locations in the seed row. With the proper 1910 Cart configuration, starter fertilizer can also be applied with the seed in a double-shoot air system.