1765 Flex
1765 Flex
Drawn Planter
Nothing Runs Like a Deere™
  • 12 rows on 30 in. (762 mm) spacing
  • Available in 1.6 bu. or 3 bu. MaxEmerge™ 5 row unit
  • Insecticide option for 1.6 bu.
  • Flex wing-fold frame
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Features
The 1765 Flex Wing-Fold Planter is an economical drawn planter with a flexible frame that provides narrow transport. It is available in a 12-row, 30-inch configuration.
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Advance with MaxEmerge™ 5 advantages

MaxEmerge 5 bundles the best of MaxEmerge XP and Pro-Series™ XP row-units to give you a unique planter solution. With more options and configurations, you’ll get difference-making versatility that easily adapts to your ag management plan.

 

It starts with optimal seed population that drives yield potential. An improved double eliminated helps achieve your desired population with a ride range of crop sizes. Improved side-hill performance of up to ¼ degree ensures you receive the full value of each seed when planting on terraces or rolling terrain. The vacuum air source from the Central Commodity System (CCS™) tank in the meter provides a debris-free environment for increased meter efficiency.

MaxEmerge 5 with 56-L (1.6-bu) hopper plus insecticide MaxEmerge 5 with 56-L (1.6-bu) hopper plus insecticide
MaxEmerge 5 with mini-hopper on CCS™ machines only MaxEmerge 5 with mini-hopper on CCS™ machines only

The MaxEmerge family of row-units have never seen a more versatile and efficient design until the MaxEmerge 5. The 5-family row-units improve productivity, increase uptime and lower the cost of ownership like never before.

 

The MaxEmerge 5 row-unit was designed for improved performance and serviceability.

Easily access the meter Easily access the meter

Serviceability and changing crops have always been a focus of downtime and potential seed loss. The MaxEmerge 5 meter (shown on the right) is accessible without having to remove the box. The design allows large hoppers to be cleaned out the same as mini-hoppers, simply by opening the meter dome and catching the seed as it falls out. 

MaxEmerge 5 vacuum seed meter MaxEmerge 5 vacuum seed meter

The vacuum meter system gently pulls and holds individual seeds to the holes of the seed disk for population control and spacing accuracy, equaling better crop stands and profit. Vacuum seed meters can plant a wide variety of crops and seed types by simply changing seed disks and adjusting vacuum level. Vacuum seed meters are available for planters with MaxEmerge 5 row-units.

 

Additional features of the vacuum seed meter include:

  • One moving component (the seed metering disk) for minimum maintenance requirements
  • Meter located at each row-unit for accurate seed delivery
  • Good hopper seed flow characteristics for longer operating time per hopper fill
  • Low airflow in meter so seed treatments are not removed
MaxEmerge 5 seed pool MaxEmerge 5 seed pool

The MaxEmerge 5 meter shape has also been redesigned for better seed flow. The mini-hopper design allows the planter to successfully operate on side hills up to 14 degrees.

Vacuum meter hub and latching handle
MaxEmerge 5 vacuum meter with disk MaxEmerge 5 vacuum meter with disk

Both the MaxEmerge 5 vacuum meters are equipped with a heavy-duty hub spring and disk latching handle. The spring ensures the seed disk stays properly positioned when operating flat-style seed disks and higher vacuum levels. Proper seed disk positioning means repeatable seed singulation, time after time. The disk-latching handle is designed for easy operation and effortless seed disk changeover. The hub is also machined to tight tolerances to further ensure alignment of metering components.

Operating characteristics of vacuum seed meter
Operating speed with seed tube technology Operating speed with seed tube technology

The vacuum seed meter can operate at faster planting speeds than mechanical meters. However, planting accuracy will be influenced by seedbed conditions and the operating characteristics of the seed meter. Rough seedbeds and fast planting speeds (above 8.9 km/h [5.5 mph]) typically deteriorate seed placement accuracies when using seed tube technology.

 

The chart illustrates the effect operating speed has on population when using the vacuum meter. The operating band (color area) illustrates how the vacuum meter performs in relation to the desired population (indicated by horizontal line). The width of the band is due to various sizes and shapes of seeds and planting rate variations.

 

When operating on slopes above 15 degrees, increased or decreased population may result. To minimize this effect, reduce speed and consider using a flat style seed disk with increased vacuum level.

Vacuum meter seed disks

The ProMax 40 Flat Disk is a flat-disk planting solution field-proven to work since 1991.

ProMax 40 Flat Disc ProMax 40 Flat Disc

The design of the ProMax 40 Flat Disk position allows seed to be released from the optimum position above the seed tube. The flush-face seed tube allows the seed to drop uninterrupted through the tube.

 

The ProMax 40 Flat Disk utilizes flat holes and a higher vacuum level to ensure every hole is populated with a seed. A double eliminator gently removes multiple seeds at each hole for precise population control. A knockout wheel makes certain that each hole is clear of any debris after the seed is released from the disk.

Flat-style and cell seed disks shown Flat-style and cell seed disks shown

The unique cell disk design allows planting a variety of seed sizes without any additional parts or individual meter adjustments. Another advantage of cell-type seed disks is the lower vacuum requirement compared to flat-style seed disks. Lower vacuum levels mean less hydraulic demand from the tractor. Most planting conditions call for a flat disk, if you are limited in hydraulic capacity, cell disks are recommended.  

Double eliminator
Flat seed disc and double eliminator Flat seed disc and double eliminator

For difficult to singulate seeds, a flat seed disk and double eliminator is a viable alternative to traditional cell-type seed disks. By design, a flat seed disk requires higher levels of vacuum than a cell-type disk because there is no pocket or cell to hold the seed. The higher vacuum level will pull more than one seed to the holes in the seed disk. The double eliminator is set to cover a portion of the hole in the seed disk and is the mechanism to knock multiple seeds away as the disk rotates.

 

Double eliminators are required with flat-type seed disks only and should not be used with cell-type seed disks. The knockout wheel is also recommended in conjunction with the double eliminator and flat seed disk to ensure seed is ejected from the disk.

 

Flat and celled type seed metering disks are available to allow planting a wide variety of seed types.

  • Corn (field, popcorn, or sweet corn)
  • Soybeans
  • Cotton
  • Sorghum
  • Sugar beets
  • Sunflowers
  • Edible beans/peas
  • Peanuts
  • Melons, squash, cucumbers

Mini-hopper row-units, which are used only with the CCS, are compatible only with crops that the CCS is approved to plant.

  • Corn
  • Popcorn
  • Sweet corn
  • Soybeans
  • Sunflowers
  • Sorghum
  • Cotton

NOTE: Due to small seed size and low planting populations, sugar beets can be planted with mini-hopper style meters by adding hopper extensions and not using the CCS tank. These hopper extensions can also be used for planting test plots.
 

Hopper shutoff Hopper shutoff

Also, to help with meter access of 56-L and 106-L (1.6-bu and 3-bu) hoppers the hopper shutoff feature was added. With the shutoff engaged, the meter cover can be opened without first having to remove all the seeds from the hopper. Lever down, the seed flow is on, lever horizontal and the seed flow is off.

MaxEmerge 5 mini-hopper MaxEmerge 5 mini-hopper

There are significant changes to the MaxEmerge 5 mini-hopper. One update is the straight feed from the CCS hose to the mini-hopper to ensure a continuous free flow of seeds. This design change reduces the potential for plugging issues with larger seed size and the use of seed treatments. By drawing air from the CCS tank, the vacuum source is cleaner, preventing meter debris buildup.

Ductile iron-cast shank Ductile iron-cast shank

Ductile iron casting is a unique high-tech process that produces a single-piece row-unit shank this enables alignment from the seed trench to the closing wheel.

 

The row-unit head is also designed using the ductile iron-casting process. The row-unit head provides the mating joints between the row-unit parallel arms and the row-unit shank. It is also the upper attaching point for the seed meter and seed hopper.

 

Ductile iron casting of the row-unit shank and head assembly provides a row-unit that is 25 percent stronger than other competitive welded row-units.

Tru-Vee opener blade Tru-Vee opener blade

One of the trademark capabilities of John Deere planters has always been the ability of the Tru-Vee openers to provide an ideal seed furrow.

 

The thickness of the Tru-Vee opener blade is 3.5 mm (0.14 in.) this blade thickness will provide extended wear life.

 

The MaxEmerge 5 row-unit also provides better Tru-Vee opener bearings for longer life. The double-row ball bearing provides up to three times the wear life as the single-row bearing.

Depth adjustment T-handle Depth adjustment T-handle

John Deere planters provide consistent seed depth control in all field conditions. Depth control is a function of the Tru-Vee openers, the downforce system, and the gauge wheel assembly.

 

The gauge wheel itself is made of durable nylon composition with a concave profile. This profile gently firms the sides of the seed furrow, ensuring a well-defined trench. The shape reduces rocks and residue being picked up and thrown onto the drive chains and row-units and helps to prevent rooster tailing of soil.

 

The bolt-through design utilizes an open bearing in the gauge wheel that allows an attaching bolt to pass through the wheel to the threaded hole in the gauge wheel arm. This simple bolt-through design provides for a positive attachment of the gauge wheel to the gauge wheel arm and allows quick removal of the gauge wheel for service.

 

Adjustability of the row-unit is critical to good performance. More available downforce options than any row unit in the industry

  • Adjustable heavy-duty downforce, four settings, 0 kg (0 lb), 57 kg (125 lb), 113 kg (250 lb), and 181 kg (400 lb) of downforce
  • Pneumatic downforce, infinitely variable from 0 to 181 kg (0 to 400 lb) of downforce
  • Active pneumatic downforce adjusts automatically for changing ground conditions from 0 to 181 kg (0 to 400 lb) of downforce
Rubber tire closing system Rubber tire closing system
Cast wheel closing system Cast wheel closing system

Rubber tire closing systems are used for most conventional, minimum-till, and no-till planting conditions. The spacing between the wheels is adjustable so the closing system can meet the needs of those who want to plant small seeds at shallow depths.

 

The wheels can also be staggered fore and aft to enhance residue flow. Four levels of spring force are available and are easily set with the integrated T-handle adjustment. A lower force spring can be obtained from parts, if a lower amount of force is required.

 

Additional closing wheel options include:

  • Cast closing wheels for tough-to-close conditions
  • Disk closing, for shallow planting depths
  • Closing wheel frame less wheels for growers desiring to use aftermarket closing wheels
1765 Drawn Flexible Wing-Fold Frame
Designed with conventional, mulch-till, and no-till planting conditions in mind
1765 12Row30 Drawn Wing-Fold Planter 1765 12Row30 Drawn Wing-Fold Planter

The 1765 planter features a rugged 177.8-mm x 177.8-mm (7-in. x 7-in.) frame, wheel module lift system, and tire contact drive system. The 12Row30 flexible-frame model feature a two-section, center flexing frame design that flex 20 degrees up and 20 degrees down.

Frame functionality
1765 Flex center frame weight bracket 1765 Flex center frame weight bracket

For 1765 Wing-Fold Planters that are operating less fertilizer or would require more frame weight for tough soil conditions, additional weight can be added to the center frame. A mounting bracket and six weights add approximately 272.2 kg (600 lb) to the planter. This weight prevents the frame from flexing up in the center when planting.

 

Use AA41141 ballast bracket and six tractor front end weights. Attach the bracket with seven 19M7597 (M20x50) bolts and 14M7277 nuts.

Tractor attaching options
1765 Planters offer one hitch length 1765 Planters offer one hitch length
Adjustable hitch settings to match tractor height Adjustable hitch settings to match tractor height

The 1765 Wing-Fold Planters have one hitch length available: 373.4 cm (147 in.) for planters used with a dual-wheel-equipped tractor. The long 373.8-cm (147-in.) hitch options are available for all frame widths and can be equipped with either a clevis (code 1457) or ring (code 1456) style hitch link. Order the style of hitch link desired.

 

Hitches are adjustable, providing three hitch settings to match tractor drawbar height, resulting in level planter operation.

Transportability

Wing folding of all 1765 Planters is hydraulically-controlled. The independent marker option and hydraulic-fold option are plumbed together using a diverter valve (code 1514) when both options are ordered (reduces selective control valve [SCV] requirements by one).

 Model

 Transport width with markers

 Transport height*

12Row30

4.8 m (15 ft, 8 in.)3.05 m (10 ft)
*Height measured with 18.4R-46 rear tires on tractor
Downforce system options
Individual Row Hydraulic Downforce (IRHD)
IRHD system IRHD system

IRHD has been specifically designed to meet the needs of producers that are looking to adjust to the toughest field conditions and provide maximum yield potential from field to field, season after season. IRHD works as a closed-loop downforce system that reacts quickly on an individual row basis to changing soil conditions supporting increased ground contact, which can lead to improved seed depth consistency. When setting planter downforce margin, the system will apply the needed downforce by row to maintain ground contact.

The system allows operators to maintain gauge wheel ground contact leading to desired seed depth placement. IRHD can adjust five times per second and make adjustments of 45.4 kg (100 lb) in less than a second. The system has a total range of applied downforce from 22.7 kg (50 lb) to 204.1 kg (450 lb) and utilizes the power beyond circuit on the tractor. IRHD is 58 percent faster than the active pneumatic downforce solution. Fast reaction and increased ground contact can lead to improved emergence. With uniform emergence, some studies have shown a yield impact from 5 percent to 9 percent.

 

IRHD is controlled through the G5 Display with SeedStar 5. As shown below, operators can view ground contact or applied downforce using the toggle button.

IRHD screen showing the ground contact graph IRHD screen showing the ground contact graph
IRHD screen showing the applied downforce graph IRHD screen showing the applied downforce graph
IRHD accumulator
IRHD accumulator IRHD accumulator

The IRHD actuator is the foundation of ensuring accurate seed depth and seed-to-soil contact at higher planting speeds up to 16.1 km/h (10 mph). The newly redesigned IRHD actuator was designed with durability and optimal performance in mind. Consisting of a valve, pressure sensor, cylinder, and now, two accumulators, the new design allows the operator to reduce downtime with recharges instead of replacements. With two rechargeable nitrogen accumulators built into the new IRHD actuator, it maintains performance, even at low nitrogen levels. This allows reduced downtime for the operator, and optimal performance over entire operating range. Pressure control from the IRHD actuator ensures optimal system performance by dampening shocks from field obstacles while operating in the field. The reduction of shock loads prevents excessive wear and broken row unit components due to the new robust and durable design. Frequently worn parts such as the accumulator pistons and seals can be replaced. The actuator rod has an internal retention feature to prevent oil loss in the event of a row unit failure.

 

Heavy-duty parallel arm for IRHD Planter row units available

Downforce and margin example Downforce and margin example
  • A - Margin – amount of additional downforce applied to a row-unit above and beyond what is required for penetration to achieve planting depth. This additional weight will ride on the depth gauge wheels. 
    • 54.4 kg (120 lb) + 36.3 kg (80 lb) = 90.7 kg (200 lb) – 68 kg (150 lb) = 22.7 kg (50 lb) of margin
  • B - Weight of row-unit - 54.4 kg (120 lb)
  • C - Downforce – force that is applied to the row-unit by the air bag circuit - 36.3 kg (80 lb)
  • D - Resistance from soil - 68 kg (150 lb)
Active downforce compressor assembly Active downforce compressor assembly

A hydraulically driven compressor works with the G5 Display with SeedStar 5 systems to automate downforce control. Just set the row-unit target margin value and the active pneumatic downforce system works automatically. The system will make sure the planter maintains this value, achieving precise soil penetration, and consistent planting depth, without sidewall soil compaction. From the factory, the system is set at 45.4 kg (100 lb) target downforce margin but may be modified for varying field conditions. This frees the operator from constantly making manual downforce adjustments as conditions change.

 

This system offers a split-rank control feature for 1795 and DB Split-Row Planters. On split-row planters, active downforce will control the front and rear rows independently. This compensates for differing downforce requirements between the ranks that can be caused by things like different tillage or insecticide attachments and will help maintain an accurate planting depth and consistent margin across all the rows.

 

Active pneumatic downforce is available as factory installed or as an attachment for field conversion.

Set point row-unit downforce
Air compressor mounted on 1775NT outer hitch Air compressor mounted on 1775NT outer hitch

On set point, the air compressor will be mounted on the outer hitch or frame assembly. Since the electric air compressor assembly is mounted on the outer hitch (as noted in the picture above) or frame, adjustments for row-unit downforce and related system pressures will be made electronically with the display.

 

When adjusting the amount of row-unit downforce using the display, the operator will select the amount of downforce (kg [lb]) to be applied across the planter. Depending on the soil conditions at hand, the operator might need to adjust the relative amount of row-unit downforce being applied during the planting operation. The integrated pneumatic downforce controls within the display will only allow for set-point operation and not automatic control as the planter is operating in different soil conditions. The pneumatic downforce system does not have the capability to automatically adjust downforce.

Pneumatic downforce provides convenient, simple adjustment of downforce for the whole planter from one location. The amount of downforce applied is infinitely adjustable from 6.8 to 181.4 kg (15 to 400 lb). Pneumatic downforce provides more consistent downforce throughout the range of row-unit travel than mechanical spring downforce systems.

Features include:

  • 9.5-mm (3/8-in.) air delivery line instead of the 6.4-mm (1/4-in.) line used on model year 2010 and older planters.
  • Air compressor assembly increased duty cycle. With this compressor, it provides a 47 percent increase in maximum air flow delivery compared to the prior air compressor.
  • Pneumatic air bags with 9.5-mm (3/8-in.) air line inlets that have greater durability.
Pneumatic downforce compressor and gauge Pneumatic downforce compressor and gauge

An improved compressor is used to charge the pneumatic system. This compressor can be located on the planter frame or in the tractor cab if desired. A gauge at the compressor indicates the amount of downforce being applied.

Integrated pneumatic downforce system

The functional features of the integrated system are the same as the standard pneumatic system, explained above, with the addition of control through the display.

Heavy-duty adjustable downforce springs
Heavy-duty adjustable downforce spring Heavy-duty adjustable downforce spring

Planter row-unit downforce is an important factor to ensure consistent and proper depth control. The heavy-duty adjustable downforce feature provides up to 181.4 kg (400 lb) of downforce. There are four settings available to allow the operator to choose the amount of downforce required for the condition: 0 kg (0 lb), 56.7 kg (125 lb), 113.4 kg (250 lb), and 181.4 kg (400 lb).

Row cleaner options to meet residue management needs

Crop yields have increased through the years along with the amount of residue left in the field after harvest. At the same time, tillage practices have changed, including different tillage operations which maintain large amounts of surface residue, and even no-till practices. Row cleaners are an essential tool in managing this increased amount of residue.

 

John Deere seeding group offers a variety of row cleaner options to meet the needs of a producer's operation. Compatibility varies by model, row spacing, and other planter equipment.

Screw-adjust, unit-mounted row cleaner
Screw-adjust, unit-mounted row cleaner Screw-adjust, unit-mounted row cleaner

The screw-adjust, unit-mounted row cleaner is mounted directly to the face plate of the row-unit, placing the ground engaging components just in front of the row-unit opener blades and depth gauge wheels. This close proximity allows the gauge wheels to control the depth of the row cleaner as well as the row-unit. This compact design also allows greater compatibility with fertilizer openers and other planter attachments.

 

SharkTooth® wheels are standard equipment on the unit-mounted row cleaner. The swept-tooth design of the wheel provides a clear path for the row-unit openers while resisting residue buildup on the wheel. The screw adjustment knob is accessible through the top of the parallel arms, providing convenient access for adjustments. The row cleaner can be adjusted in 1.6-mm (1/16-in.) increments, providing plenty of flexibility to meet the needs of changing conditions.

Floating row cleaner with unit-mounted coulter
Floating row cleaner with unit-mounted coulter Floating row cleaner with unit-mounted coulter

The floating row cleaner allows a row cleaner to be used in conjunction with a unit-mounted coulter. This combination is often desired in heavy residue loads and reduced tillage planting conditions. The row cleaner provides a clear path for the row-unit, while the unit-mounted coulter helps penetrate tough soil conditions.

 

Accommodating the unit-mounted coulter means the residue wheels are farther forward from the row-unit face plate than in the case of the screw-adjust row cleaner. To maintain performance, this row cleaner has the capability to float above a defined minimum depth.

 

Standard depth-gauging bands on the wheels allow the row cleaner wheels to float independently of the row-unit openers, allowing both to perform in varying terrain. The unit may also be set in a fixed position by simply pinning through the bracket if desired. This row cleaner also features SharkTooth wheels as standard equipment.

 

The floating row cleaner and unit-mounted coulters are available on many planters as factory-installed equipment.

NOTE: Screw-adjust row cleaners are not compatible with MaxEmerge™ 5e row-units with long parallel arms.

 

NOTE: DB models have the option for either unit-mounted coulter, screw-adjust row cleaners, or pneumatic row cleaners (only compatible with MaxEmerge 5e or equipped ExactEmerge™ models). The DB60T is only available with a less row cleaner option.

 

SharkTooth is a trademark of Yetter Manufacturing, Inc.

RowCommand™ individual-row control system
RowCommand controls seed output
RowCommand on a MaxEmerge™ 5 row-unit RowCommand on a MaxEmerge™ 5 row-unit
RowCommand on a chain drive MaxEmerge 5 row-unit RowCommand on a chain drive MaxEmerge 5 row-unit

Controlling input costs and improving productivity are key producer requirements today. RowCommand is an effective, integrated John Deere solution designed to meet these intensifying needs. The RowCommand system manages seed output, reduces yield drag, and improves harvest capabilities on all Pro-Shaft™ driven row-units, and chain-driven MaxEmerge 5.

 

NOTE: Chain-drive RowCommand is only compatible with planters equipped with pneumatic downforce systems. On planters equipped with the heavy-duty downforce springs, potential chain interference may result and is not recommended.

 

NOTE: Chain-drive RowCommand requires some modification to brackets in order to function with corn finger pickup meters.

 

NOTE: Pro-Shaft drive RowCommand is compatible on MaxEmerge 5 row-units with vacuum and corn finger pickup meters. For mini-hopper row-units, RowCommand is compatible on vacuum meters only and is not compatible on corn finger pickup meters. Pro-Series™ XP row-units with corn finger pickup meters are not compatible with RowCommand.

 

RowCommand controls seed output by incorporating individual, low amperage clutches inside the Pro-Shaft and chain-driven gearboxes. Clutches are completely enclosed within the gearbox housing to protect them from the elements and harsh operating conditions.

 

When power is supplied, either manually or through John Deere Section Control software, clutches disengage the seed meters and seed flow stops. Controlling seed output at individual rows reduces overplanting in point rows and maximizes seed placement when entering/exiting headlands.

Components and operation
Electronic power modules shown on a 1775NT Planter Electronic power modules shown on a 1775NT Planter
RowCommand clutch on MaxEmerge 5 with 105.7-L (3-bu) hopper RowCommand clutch on MaxEmerge 5 with 105.7-L (3-bu) hopper

RowCommand is a simple and efficient solution to control individual row planting. This system does not utilize air to operate; therefore, no compressor, air lines, or valve modules are required.

 

RowCommand utilizes low-voltage controller area network (CAN) messaging to signal power to the desired clutches to stop planting or eliminates power to resume planting.

 

This means very little power is used in normal planting conditions, and in the event a clutch fails electrically, the meter will continue to plant.

The RowCommand system requires the following five basic components to operate: 

  • Electric clutches
  • Electronic power modules (EPMs)
  • SeedStar™ 2 or XP monitoring (wedge box/controller)
  • GreenStar™ display
  • Planter wiring harnesses

Clutches are protected within the sealed Pro-Shaft and chain-driven gearboxes for years of trouble-free operation and simple installation or removal. RowCommand has true individual-row control of up to 16 clutches or sections for planters larger than 16 rows.

 

Unique to RowCommand, the 16 available control sections can be configured based on operator preferences. For example, on a 1775NT 24-Row Planter, every two rows can be paired together for a total of 12 control sections or control the outermost eight rows individually and the remaining inner rows paired together for 16 control sections.

 

While SeedStar with RowCommand has 16 control sections, a minimum of 152.4-cm (60-in.) wide sections are recommended for optimum Swath Control Pro™ solution capabilities. As with other Swath Control Pro products, an SF2 signal is the minimum level of accuracy recommend for operation.

Chain-drive RowCommand and heavy-duty downforce
Chain interference with heavy-duty downforce Chain interference with heavy-duty downforce

As seen in the image, chain interference may result when operating chain-drive RowCommand on planters equipped with short and long parallel arms and heavy-duty downforce springs.

 

NOTE: Chain-drive RowCommand is only compatible with planters equipped with pneumatic downforce systems. On planters equipped with the heavy-duty downforce springs, potential chain interference may result and is not recommended.

 

Chain-drive RowCommand with corn finger pickup meters
Bracket material removal Bracket material removal

Due to the design characteristics of the chain-drive RowCommand clutch, some modification to the corn finger pickup meter drive bracket is required. As seen in the image above, some material needs to be removed from the front of the meter drive bracket in order for the chain-drive RowCommand clutch to have sufficient space for installation.

 

NOTE: Chain-drive RowCommand requires some modification to brackets in order to function with corn finger pickup meters.

RowCommand ordering information

To add RowCommand to a model year 2009 and newer planter model listed above is simple. Pro-Shaft drive attachments for field conversion and chain-drive attachments for field conversion are available by planter model to add the appropriate number of clutches, EPMs, brackets, hardware and row-unit harnesses. For complete installation and part detail for the RowCommand conversion, please use the RowCommand compatibility tool per specific planter model.
 
RowCommand is compatible and available for model year 2003 (serial number 700101) to 2008 (725101) planter models listed above. In addition to the attachment for field conversion attachment, a planter mainframe harness, SeedStar 2 controller (wedge box), and additional CAN harnesses are needed.

Integrated Section Control

Coupling RowCommand with Section Control provides the ultimate in precision planting and productivity. One company and one integrated solution are what John Deere offers by incorporating Section Control capabilities within the SeedStar 2 wedge box (controller). Unlike previous systems, no rate controller, additional harnessing, or components are required to achieve automated individual-row control.

 

SeedStar 2 and XP monitoring, RowCommand, and Section Control activation from John Deere Precision Ag Technologies are all that is needed when ordering.

System requirements

RowCommand is a simple and efficient means to control individual row planting using low-voltage electric clutches. When activated, each clutch consumes no more than 0.5 amps. By design, power is only supplied to the clutch when a signal is received to stop planting. In a normal planting condition, no power is supplied, and the clutch is de-energized. 

 

Power for the RowCommand system is provided from the nine-pin ISO implement connector. All late-model 8X00 and 9X00 Series and newer John Deere Tractors equipped with the nine-pin ISO implement connector can supply ample power for system operation.

 

Along with ample system power, a GreenStar display and SeedStar monitoring are required for operation and control interface. The GreenStar display is where system setup, control settings, and manual control functions are performed.

Seed variable-rate drive

Seed variable-rate drive provides the ultimate planting productivity by utilizing one, two, or three hydraulic motors (varies by model) to turn the seeding drive shaft. Hydraulic control of the seeding drive allows for on-the-go seeding rate changes right from the display mounted inside the tractor cab. Combine this seeding flexibility with the map-based planting option, and seeding rates adjust automatically based on the prescribed map. 

 

Variable-rate drive offers the following advantages over common, ground, or contact-tire drive systems: 

  • Rate changes are almost instantaneous; no ramp up or ramp down of system as in some competitive systems
  • Permits the producer to match seed population based on different soil types or irrigation practices
  • John Deere design provides added operator safety by eliminating any possible drive creep found in some competitive variable-rate drive systems
1755 equipped with variable-rate drive 1755 equipped with variable-rate drive
1765NT equipped with variable-rate drive 1765NT equipped with variable-rate drive

Single- or dual-motor systems for variable-rate drives are available for all John Deere planters except the 1785 Rigid Frame. Variable-rate drive is available as a factory-installed option for all applicable planter models.

Single- or dual-motor systems are available as field-installed attachments for most planter models; however, a three-motor variable-rate drive field-installed attachment is not available.

Seed variable-rate drive requires the SeedStar™ monitor and a radar input signal. Either tractor or planter radar may be used. Planter radar is ordered separately.

 

NOTE: Peanut seed meter disks require the variable-drive transmission.

Seed variable-rate drive (VRD) with half- or three-width disconnect
VRD shown on a 1775NT VRD shown on a 1775NT

The seed variable-rate drive provides the ultimate planting productivity by utilizing one, two or three hydraulic motors (varies by model) to turn the seeding drive shaft. Hydraulic control of the seeding drive allows for on-the-go seeding rate changes right from the display mounted inside the tractor cab. 

 

Combine this seeding flexibility with the map-based planting option, and seeding rates adjust automatically based on a prescription map.

 

Single- or dual-motor systems for variable-rate drives are available for all John Deere planters except the 1785 Rigid Frame. Dual- or three-motor drive systems are commonly used on larger (12-row and more) planters and offer the capability of half-width or three-section drive disconnect.

 

The VRD is available as a factory-installed option for all applicable planter models. Single- or dual-motor systems are available as field-installed attachments for most planter models; however, a three-motor VRD field-installed attachment is not available.

 

The seed VRD requires the SeedStar™ monitor and a radar input signal. Either tractor or planter radar may be used. Planter radar is ordered separately.

VRD offers the following advantages over common, contact-tire drive systems: 

  • Almost instantaneous rate changes – there is no ramp up or ramp down of system as in some competitive systems
  • Permits the operator to match seed population based on different soil types or irrigation practices
  • John Deere design that provides added operator safety by eliminating any possible drive creep found in some competitive variable rate drive systems
Half-width drive disconnect

The half-width drive disconnect feature is excellent for the producer concerned with controlling seed costs. This feature helps the operator place seed in the desired area and limit the amount of costly overlapped planting. 

 

The half-width drive disconnect allows the operator to turn off half of the planter at a time for planting end rows, point rows, etc. Variable-rate-equipped planters require two drive motors to utilize the half-width disconnect feature. 

Half-width drive disconnect within frame control Half-width drive disconnect within frame control

With a 1765, 1765NT, and 1775 12-Row Planter, a single switch box is required for planters that are ordered with variable rate drive and half-width disconnect.

 

For the 1775NT, 1775NT Central Commodity System (CCS™), and 1795 Front-Folding Planters, the half-width drive disconnect switch is contained within the frame control box, conveniently located in the tractor cab. The function easily shuts off the drive for the left or right half of the planter row-unit seed meters.

Three-width drive disconnect
Three-width drive disconnect control Three-width drive disconnect control

Three-width drive disconnect is an option on 1725 12-Row Planters and is base equipment on the 1725 16Row30 Planter. This feature is activated by three individual console mounted switches (control box), conveniently located in the tractor cab. The function easily shuts off the planter row-unit seed meters by one-, two-, or three-drive segments independently.

We want to make owning and operating your equipment simple and affordable. 
We have a range of finance options to suit any customer.  Contact your local Emmetts branch, or visit these sites for more information and a free quote.
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