Many producers enjoy the moisture-saving benefits of low-disturbance seeding. To make it easier for them to reap the rewards of low-disturbance seeding, factory-installed knife bodies are available for 1830 and 1835 Drills.The knife bodies are available in 2.5 cm (1 in.) or 10 cm (4 in.) spread points. Use the 2.5-cm (1-in.) point for low disturbance or, if a wider spread pattern is desired to increase seedbed utilization, use the 10-cm (4-in.) point. The points can be quickly changed with a single roll-pin fastening system and feature carbide tips to ensure long life. The knife bodies also feature a positive hose retention system with provisions for a hose clamp to hold the hose in place.These knife bodies may not perform as designed in wet, sticky soil conditions.NOTE: Points and roll pins are not included. Points and roll pins are available through Service Parts.
Perma-Loc spoons and sweeps from John Deere offer reduced maintenance and cost savings. How? The Perma-Loc design enables a change out up to five times faster than traditional bolt-on components.
What about opportunities to save cash? With Perma-Loc spoons and sweeps, there's no more purchasing hardware each time spoons are changed out. This can save $309 USD list price when changing out the spoons on a 18.60-m (60-ft) tool with 19-cm (7.5-in.) spacing.
Save time and money and seed smart with John Deere Perma-Loc spoons or sweeps.
Shown is the 10-cm (4-in.) Perma-Loc spoon; 7.5-cm (3-in.) spoons are also available. Spoons are not included in base price and must be ordered separately. Below is the seedbed profile that can be expected if using a 10-cm (4-in.) spoon in conventional tillage with the 1835 Separate Fertilizer Placement (SFP).
Perma-Loc clip and seed boot for TruPosition™ standard
Perma-Loc clip and seed boot for TruPosition openers with sweeps
Knife body for TruPosition standard
Knife body with 2.5 cm (1 in.) tip for TruPosition openers
Knife body with 10 cm (4 in.) tips for TruPosition openers
Less ground-engaging tools and seed boot for TruPosition and spring-cushion openers
This handy Perma-Loc removal tool should be ordered for each drill ordered with Perma-Loc components.
Considerable attention has been given to routing primary seed and fertilizer hose. Reducing sharp bends and eliminating rub points serve to increase hose life and reduce the chance of downtime and skips resulting from holes in the hose.
Additionally, improved clamping and securing methods have been developed specifically for the 1830 and 1835 to maintain hose routing and reduce hose wear.
Hoses are routed at the factory. To expedite dealer setup and ensure proper primary air hose positioning, the 1830 and 1835 incorporate quick couplers at wing and mainframe section joints.
Consistent seed and fertilizer delivery to the opener depends on proper secondary air hose routing. John Deere has adopted innovative clamping methods to ensure hoses maintain their shape and stay clear of frame components that could potentially cause premature wear.
Setting depth is one of the most critical adjustments an operator will make to a seeding tool. John Deere understands every operator needs dependable, repeatable depth control that's easily adjustable. Not every producer agrees on how to make it. That is why John Deere provides a choice of two depth control options on the 1830 and 1835.
Often-heard are comments from producers who say they prefer the positive mechanical depth control offered by the 1820. This popular concept is base equipment on the 1830 and 1835 air hoe drills.
Two indexed depth shim packs on the mainframe are not only easy to set, but reduce the number of adjustment sites over previous designs by up to 60 percent.
Less time adjusting means more time seeding.
Changing field conditions such as moisture levels and soil types can make setting depth a challenge. TouchSet depth control makes adjusting depth in response to changing field conditions easy and profitable. On 8R and 9R Series tractors, the operator uses selective control valve (SCV) #1 and the SCV TouchSet control panel to perform all the depth control functions from the seat. Considering yield penalties of 5 percent due to seeding 2.5 cm (1 in.) too deep or too shallow, the convenience of in-cab adjustment pays nicely.
NOTE: Repeatability is +/- 6 mm (0.25 in.) to preset depth. If your seeding operation requires accuracy greater than +/- 6 mm (0.25 in.), the use of shim packs is recommended.
How does it work? The operator uses the TouchSet (SCV setup panel) to set or change the operator depth.
Preset the raise height to:
A remote position sensor (1) is located at the rear of the drill; electronically monitors the positions of the implement.
An electrical connector is used for easy hookup of TouchSet depth control sensor on the implement to the tractor system (8R Tractor illustrated).
Positive mechanical depth control
TouchSet depth control plus positive mechanical depth control
Positive mechanical depth control with active hydraulic down-pressure system for separate fertilizer placement (SFP)
TouchSet depth control and positive mechanical depth control with active hydraulic down-pressure system for SFP
The correct tires are critical to the overall performance and productivity of an air hoe drill. The John Deere Seeding Group recognizes the wide variance in conditions and tire needs around the world. Five tire options are provided for the 1830 Air Hoe Drill.
To select the appropriate tire, consider the discussions and matrixes below.
Wheels in base equipment on 1830 mainframe are:
Equip the wing sections with duals in the following situations:
The 12.5L-15 tire (code 2210 or 2215) brings load-carrying capacity and puncture resistance.
For additional capabilities in the following situations, consider optioning up to high-flotation, wide-profile knobby tire option (code 2220):
The high-flotation tires (code 2220) provide the best performance in all categories with the exception of tire overlap (pass-to-pass) and replacement tire considerations. The size of the machine will depict whether the mainframe will receive 33x15.5-16.5 or 31x13.5-15 size tires (see matrix below).
What tires are included with each base code and option code? This can be a complicated question and present unwarranted confusion. Each machine configuration is equipped with the tire that is meets the minimum load carrying capacities required of the machine size. Below is a chart that describes the tire that accompanies each code.
12.5L15 FI LR D
31x13.5-15 10 PR
33x15.5-16.5 10 PR
1830-61 (18.60 )
12.5L15 FI LR F
1835-41,50 (12.50 & 15.20 m
To determine which code is most appropriate for a given situation, see the chart below, which outlines some considerations for tire package selection.
Extensive road transport or heavy options
Flotation - Road transport
Transport on soft rural roads
Flotation - Field edges
Operation around field wet spots
Puncture and stubble resistance
Road and field hazards or tough stubble
Wing operation stability
Operation in rough fields
Overlap with previous pass
Operation without guidance systems
Availability of replacement tires
Operation far from retail centers
Cost of replacement tires
The 1830 and 1835 feature a simplified hydraulic system due to a common rockshaft design in the lift circuit. Not only does this tie all sections together ensuring consistent depth from mainframe to wing, it also eliminates 50 percent to 67 percent of the hydraulic cylinders, reducing the chance of hydraulic failure.
Pinched hydraulic hoses lead to costly downtime. John Deere is aware producers expect machine reliability and a visually pleasing appearance when investing their hard-earned money in a new seeding tool. That's why the John Deere seeding group has placed extra emphasis on securely routing hydraulic hoses on the 1830 and 1835.
All 1830 and 1835 frames are manufactured with weldments to accommodate hose securement sites like the P-clamp and D-ring shown above.
Innovative solutions like this Velcro® strap and protective sleeve ensure the reliability of the 1830 and 1835 measure up to John Deere standards. A machine-down repair that takes two hours to fix can mean over 20 ha of lost seeding time. At a custom rate of $12 per hour, that's at least $600 of lost revenue, or lost yield, if seeding is delayed past mid May (wheat) for many locations.
Velcro is a U.S.-registered trademark of Velcro Industries B.V.
Most producers view purchasing a seeding system as a long-term investment. The life requirement of these robust machines is four times longer than previous models. That is why the John Deere seeding group has built even more durability into the 1830 and 1835 Air Hoe Drills.
An advanced and rigorous testing program has proven the machine durability to the extent that John Deere now offers a three-year frame warranty with each 1830 and 1835 that rolls out of the factory.
Robust ball joints connect strong fore-aft tubes to 100- x 100-mm (4- x 4-in.) rank tubes, which are joined to one another by pivoting rank connectors. Both the mainframe and wing sections share this durable construction that enables the frame to flex diagonally, relieving stress on solid frame members and avoiding frame failures.
Seed smart with confidence that the 1830 and 1835 will endure your field conditions.
Producers are more attuned to the importance of seed depth than ever before. A uniform-looking field is not the only goal; yield is too. Proven yield penalties across the world range from 5 percent to 25 percent, depending on depth variance.
The 1830 and 1835 feature diagonal mainframes and wing flexing – helping openers maintain their depth over uneven terrain.
Transporting large machines on public roads can be a little stressful. Passing motorists, mailboxes, overhead lines, and trees can all contribute to potential hazards. With so much to focus on, the 1830 Air Hoe Drill operator should not have to worry about openers engaging the pavement when lowering a machine to clear an overhead obstacle. With the optional transport height reduction feature, the operator does not need to worry. This handy feature can also serve to set the height for storage inside.
Simply setting the pin in the appropriate hole will stop the machine from lowering when the openers are a safe distance above the pavement. The operator can focus on the overhead obstacle and other hazards such as passing motorists near the machine. This can prevent a potentially damaging encounter with the road surface or even an accident.