John Deere T670

Air compressor engagement button

To improve serviceability and cleaning of the entire combine after a long and dusty working day, a factory-installed air compressor is available as an option.

The air compressor features three air take-off couplers: one on the left side near the toolbox compartment, one on the right side below the fuel tank, and one on the engine deck. With a 10-m (32.8-ft) hose, an additional air pistol, and a 125-cm (49.2-in.) lance, each point on the machine can be reached comfortably, easily, and quickly.

The air connection valve is activated with the air compressor engagement button on the armrest. Air can be used via the quick couplers. The air compressor engagement button can be activated when the machine is not moving, the separator is disengaged, and the park brake is activated.

Once the air compressor is engaged by a button on the armrest, the system starts to fill the 60-L (16-gal.) air reservoir tank until a shut- off pressure of 8 bars (116 psi) is reached. The system automatically stops to ensure power is only consumed if necessary.

NOTE: The air compressor option has not been optimized for operation of air tools and is not recommended to blow out engine air filter or debris management filter with the engine in operation.

NOTE: It is recommended to drain moisture from the air tank daily when the machine is in use to prevent degradation in the performance of the system. When servicing the air compressor, it is recommended to expel all stored air from the system.

Extra-fine-cut chopper rotor and housing

The improved extra-fine-cut straw chopper delivers excellent chopping quality and best-in-class residue distribution of chopped material in the field with a cutting width up to 10.70 m (35 ft).

The extra-fine-cut chopper comes standard with serrated chopper knives, which ensure superior splicing of the straw and improved straw rotting process. The extra-fine-cut chopper is highly recommended for producers with no tillage or minimum tillage operations.

The optional dual-speed chopper drive provides flexibility to match all crops and conditions.

Armrest adjustment

The extra-fine-cut chopper comes standard with a remote adjustable tailboard.

The remote adjustable tailboard can be adjusted from the cab conveniently via armrest control buttons (button A). The in-cab adjustment includes a unique tailboard position swap button (button B); by pressing the button on the armrest, the tailboard vanes automatically swap from left to right stored position and vice versa.

False floor geometry housing

The extra-fine-cut chopper housing follows the contour of the rotating knifes. This false floor geometry narrows the gap between the rotating knife and the chopper housing to a 4™5 mm (0.16-0.20-in.) closing at a wrapping angle of 83 degrees. It requires no adjustments and does not require any maintenance or replacements.

Wind paddle

The T670 with extra-fine-cut chopper comes standard equipped with wind paddles, which are factory installed on two knife rows. The wind paddles are mounted with bushings to withstand impacts from foreign objects. Equipped with wind paddles, the extra-fine-cut chopper is able to spread the chopped straw evenly up to 10.70 m (35 ft). Wind paddles are more effective than active radial spreaders, which are normally hydraulically driven.

Counter knives

Counter knives adjustment

The extra-fine-cut chopper comes standard with a counter knife row, which is infinitely adjustable with two large leavers on each side. To secure the position, only one bolt needs to be tightened at each side.

Grouser bar

Grouser bar adjustment

The extra-fine-cut chopper features a redesigned grouser bar, which is infinitely adjustable with a slide bar. To reduce the length of chopped material in green straw conditions, the grouser bar should be engaged. In dry straw conditions, it improves the splicing of the straw. To decrease fuel consumption, it is recommended to remove the grouser bar when chopping other crops such as corn, rape seed, beans, peas, and sunflower. 

Tailboard angle adjustment

Tailboard angle adjustment

Tailboard vane adjustment

The tailboard angle can be adjusted without tools in three positions with a lever on each side.

In addition to the three-point tailboard adjustment, the vane angle can be set in four additional positions to ensure the spreading width of the residue matches all cutting platforms up to 10.70 m (35 ft).

The extra-fine-cut chopper comes standard with a 10-vane electrical tailboard design.

Windrow sheet

Windrow deflector plate

Straw chopper clutch

A single lever operates the windrow deflector plate. Operated on the right side, the straw is guided into the chopper or down on the ground for windrowing.

The straw chopper is directly driven from the main engine gearcase and automatically engages with the separator drive. A heavy-duty power belt reliably transmits drive power to the chopper. A reliable clutch is used for engaging and disengaging the chopper rotor.

Remote adjustment of Dyna-Flo Plus cleaning system

The Dyna-Flo Plus cleaning system comes standard with electric adjustment on all T670 Combines.

The remote cleaning shoe adjustment can be either completed from inside the cab on display settings or with the armrest buttons. As an alternative solution, such as when inspecting the shoe from the outside, settings can also be adjusted from the left side at the rear of the machine.

The remote cleaning shoe adjustment motors are equipped with an integrated position sensor. This eliminates the need for recalibration of the electric motors. Calibrations only need to be redone in case the electric hardware or the cleaning shoe elements get replaced. 

Quick-engage booster bar

Quick-engage booster bar adjustment

The quick-engage booster bar is adjustable from the outside via the stone trap with a 24-mm (0.95-in.) wrench. It has two positions. In the engaged position, the concave entrance features a profiled rasp bar. In the disengaged position, the concave entrance features a smooth transition plate. Adjustment can be completed easily within minutes.

Material flow coming from the feederhouse passing the booster bar is slowed down; this increases the threshing efficiency. The booster bar does not have a negative influence on the crop flow or the grain quality. The booster bar increases threshing efficiency in hard-to-thresh crops without closing the de-awning plates, allowing maximum separation at the concave area.

NOTE: The booster bar is standard on the T670.

Threshing and separation concept T-Series

Functional components

1. Large, 660-mm (26-in.) diameter threshing cylinder with 10 rasp bars and increased concave area
2. Smooth stripper roll and enlarged overshoot beater
3. Enlarged, 800-mm (31.5-in.) separator with high-performance separation grate
4. Eight-wing, 400-mm (15.7-in.) rear beater and rear beater grate
5. Seven-step straw walker design with welded or optional bolted universal and corn-cob mix (CCM) grids

Large, 660-mm (26-in.) threshing cylinder with 10 rasp bars and enlarged concave

The large, 10-rasp bar threshing cylinder with 660-mm (26-in.) diameter provides excellent grain quality and gentle material handling.

Combined with the enlarged wrapping angle of 124 degrees, this ensures excellent threshing efficiency, providing unmatched capacity even in tough separating conditions.

Four rasp bars are in constant contact with the crop against the concave area for excellent threshing and separating efficiency:

• Provides a large concave area and allows a slow cylinder speed
• Ensures gentle threshing and separation to reduce grain damage
• Large, concave wrapping angle ensures high grain separation right at the beginning and reduces separation load on the straw walkers
• Wide, 1670-mm (65.7-in.) (6-Walker) channel width grants maximum throughput even in tough separating conditions

Stripper drum and overshoot beater

Stripper drum

Overshoot beater

The T-Series threshing system uses a smooth surface stripper roller behind the threshing cylinder to gently direct the material to the overshoot beater. This prevents material from back feeding on the threshing cylinder, eliminating blockages of the cylinder. The stripper roller speed runs at 125 percent ratio of the threshing cylinder speed.

The enlarged, 500-mm (19.7-in.) overshoot beater on the T-Series continues the material flow process. Material travels over the top of the beater and is directed into the separation drum.

Smooth crop flow is achieved without harsh angles or abrupt changes in direction.

The eight-wing beater has a constant speed. The serration design of the wings’ leading edges engage the mat of material and move the high volumes of tough, damp straw without buildup or bunching.

Xtra Large separator and high-performance separator grate (HPS grate)

The 800-mm (31.5-in.) Xtra Large separator drum provides additional separation capacity of the T-Series. Due to the open design, the drum is not heavier in weight than the previous closed design.

The Xtra Large separator drum runs at two factory-installed speeds:

• 760 rpm for small grain and grass seed
• 380 rpm for rape seed and peas and beans

There is an optional 270 rpm speed reduction kit available for corn harvest which is included in the corn package.

Swapping the belt speed can be done easily and quickly by changing the drive pulley via a lever-operated tension pulley.

The Xtra Large separator drum runs at a lower speed compared to the previous design that was operated at 900/450 rpm. While it seems that higher drum speeds result in more efficient separation capacity caused by the higher centrifugal force, the opposite effect has been measured. While the centrifugal force has a vital impact on the separation capacity, speeds of the separator drum that are too high result in low exposure time in the high-performance separator grate. This is shown in the graph below.

Straw walker concept

Seven-step straw walker design

The T-Series has a seven-step straw walker concept. Compared to the previous T Series, the model year 2017 T-Series Straw Walker is extended by 80 mm (3.15 in.), which results in a slightly increased overall straw walker area (+ 0.1m²). The concept of low walker rpm and high walker stroke provides efficient tossing to fluff even largest straw mats and open channels for the free grains to drop through. This results in most efficient grain separation capability. The straw walker is available with welded or bolted universal and CCM grids for best-in-class reconfiguration and ability to retrofit for all crops and conditions.

The straw walker is equipped with a closed walker trough at the rear, which ensures the grain is captured in the trough and feeds evenly on the walker return pan that is mounted below the front section of the walkers. Section dividers on the return pan help to maintain an even distribution of material onto the front chaffer of the cleaning system, even on slopes.

• High throw provides efficient tossing to fluff even the largest straw mats and open channels for the kernels to drop through.
• Maximum grain separation is achieved at the front section due to the impact of the straw mat when hitting the first walker steps.
• Four shallow, angled steps provide maximum separating efficiency.

Different walker grids are available to match all crop and conditions.

Overall threshing and separation system benefits:

• Greater level of productivity due to the enlarged concave wrapping angle, Xtra Large separator drum, and the high-performance separator grate
• Best-in-class grain and straw quality can be achieved with the threshing and separating concept
• Fast and easy adoption for different crops
• Lower power consumption and excellent straw quality, making this combine the optimal choice for straw producers

Rear beater and rear beater grate

Rear beater

The 400-mm (15.7-in.) rear beater on the T-Series continues the material flow process. The beater delivers material to the straw walkers. The beater is driven directly from the Xtra Large separator drum and is operated at two speeds.

• 900 rpm for small grain and grass seed
• 450 rpm for rape seed, corn, peas, and beans

A separation grate is mounted underneath the rear beater. The grate is adjustable with a handle on the right side.

Two positions are available:

• Wide position recommended in rape seed, corn, peas, beans, or other sensitive crops
• Narrow position for small grain or grass seed

Inside the T-Series threshing and separation system is an eight-winged, rear beater drum that separates the remaining grains out of the straw mat thanks to the rear beater grate, which provides additional active separation area.

Comparison of separator speed

Comparison separator speed

The red line indicates the performance delta at a loss level of one percent between the different separator speeds.

In combination with the new high performance separator grate, which features a dual design, the first three-quarters of the grate are equipped with wire-grate design, and the last quarter of the grate is equipped with a finger-rake design.

The dual design of the high-performance separator grate provides a boost in separation capacity and does not require manual adjustments that the previous finger rake grate did with the swing in/out function of the two finger rows in tough separating conditions.

The graph below shows the separation performance of two T670s equipped with a 630R Platform running in the same field at same threshing settings. The machine with the high-performance grate clearly shows additional separation capacity compared to the machine with the 800-mm (31.5-in.) Xtra Large separator grate and an updated finger-rake design based separator grate.

Threshing and separation concept of T-Series

Functional components:

1. Large, 660-mm (26-in.) diameter threshing cylinder with 10 rasp bars and increased concave area
2. Smooth stripper roll and enlarged overshot beater
3. Enlarged, 800-mm (31.5-in.) separator with high-performance separation grate
4. Eight-wing, 400-mm (15.7-in.) rear beater and rear beater grate
5. Seven-step straw walker design with welded or optional bolted universal and corn-cob mix (CCM) grids
6. Sectional concave with quick adjustable de-awning plates

Large, 660-mm (26-in.) threshing cylinder with 10 rasp bars and enlarged concave

The large, 10-rasp bar threshing cylinder with 660-mm (26-in.) diameter provides excellent grain quality and gentle material handling.

Combined with the enlarged wrapping angle of 124 degrees, this ensures excellent threshing efficiency, providing unmatched capacity even in tough separating conditions.

Four rasp bars are in constant contact with the crop against the concave area for excellent threshing and separating efficiency:

• Provides a large concave area and allows a slow cylinder speed
• Ensures gentle threshing and separation to reduce grain damage
• Large, concave wrapping angle ensures high grain separation right at the beginning and reduces separation load on the straw walkers
• Wide, 1670-mm (65.7-in.) (6-Walker) channel width grants maximum throughput even in tough separating conditions

Stripper drum and overshot beater

Stripper drum

Overshot beater

The T-Series threshing system uses a smooth surface stripper roller behind the threshing cylinder to gently direct the material to the overshot beater. This prevents material from back feeding on the threshing cylinder, eliminating blockages of the cylinder. The stripper roller speed runs at 125 percent ratio of the threshing cylinder speed.

The 500-mm (19.7-in.) overshot beater on the T-Series continues the material flow process. Material travels over the top of the beater and is directed into the separation drum.

Smooth crop flow is achieved without harsh angles or abrupt changes in direction.

The eight-wing beater has a constant speed. The serrated design of the wings’ leading edges engage the mat of material and move the high volumes of tough, damp straw without buildup or bunching.

Extra-large separator and dynamic tangential grate

The 800-mm (31.5-in.) extra-large separator drum provides additional separation capacity or the T-Series. Due to the open design, the drum is not heavier in weight than the previous closed design.

The extra-large separator drum runs at two factory-installed speeds:

• 760 rpm for small grain and grass seed
• 380 rpm for canola, peas, and beans

There is an optional 270 rpm speed reduction kit available for corn harvest which is included in the corn package. Swapping the belt speed can be done easily and quickly by changing the drive pulley via a lever-operated tension pulley.

The extra-large separator drum runs at a lower speed compared to the previous design that was operated at 900/450 rpm. While it seems that higher drum speeds result in more efficient separation capacity caused by the higher centrifugal force, the opposite effect has been measured. While the centrifugal force has a vital impact on the separation capacity, speeds of the separator drum that are too high result in low exposure time in the high-performance separator grate. This is shown in the graph below.

Comparison of separator speed

Comparison separator speed

The red line indicates the performance delta at a loss level of one percent between the different separator speeds.

The dynamic tangential grate (new beginning in model year 2019) features a completely updated design equipped with a full wire profile as described below.

Sectional concave with quick adjustable de-awning plates

Sectional concave with small-grain inserts

Feature benefits:

• High versatility and flexibility with three different concave inserts available
• Uptime ensured with fast exchange design
• Easy access from stone trap and storage position for the concave inserts

Dynamic tangential grate

For model year 2019, the design was changed for fewer restrictions on crop flow and optimal separation that would not affect straw quality.

• All the transversal bars are produced with round edges for better crop flow and straw quality.
• All the wires are repositioned as close to the upper edge as possible to prevent any straw accumulation, therefore improving separation capacity.
• The wires are implemented on the complete area and replace finger rakes for larger opening areas (+10 percent opening area versus model year 2016 tangential grate).

Rear beater and rear beater grate

Rear beater

The 400-mm (15.7-in.) rear beater on the T-Series continues the material flow process. The beater delivers material to the straw walkers. The beater is driven directly from the extra-large separator drum and is operated at two speeds.

• 900 rpm for small grain and grass seed
• 450 rpm for rape seed, corn, peas, and beans

A separation grate is mounted underneath the rear beater. The grate is adjustable with a handle on the right side.

Two positions are available:

• Wide position recommended in rape seed, corn, peas, beans, or other sensitive crops
• Narrow position for small grain or grass seed

Inside the T-Series threshing and separation system is an eight-winged, rear beater drum that separates the remaining grain out of the straw mat. The rear beater grate provides additional active separation area.

Straw walker concept

Seven-step straw walker design

The T-Series has a seven-step straw walker concept. Compared to the previous T-Series, the model year 2017 and newer T-Series straw walker is extended by 80 mm (3.15 in.), which results in a slightly increased overall straw walker area (+ 0.1 m² [1.08 sq ft]). The concept of low walker rpm and high walker stroke provides efficient tossing to fluff even largest straw mats and open channels for the free grains to drop through. This results in most efficient grain separation capability. The straw walker is available with welded or bolted universal and CCM grids for best-in-class reconfiguration and ability to retrofit for all crops and conditions.

The straw walker is equipped with a closed walker trough at the rear, which ensures the grain is captured in the trough and feeds evenly on the walker return pan that is mounted below the front section of the walkers. Section dividers on the return pan help to maintain an even distribution of material onto the front chaffer of the cleaning system, even on slopes.

• High throw provides efficient tossing to fluff even the largest straw mats and open channels for the kernels to drop through.
• Maximum grain separation is achieved at the front section due to the impact of the straw mat when hitting the first walker steps.
• Four shallow, angled steps provide maximum separating efficiency.

Different walker grids are available to match all crop and conditions.

Overall threshing and separation system benefits:

• Greater level of productivity due to the enlarged concave wrapping angle, extra-large separator drum, and the high-performance separator grate
• Best-in-class grain and straw quality can be achieved with the threshing and separating concept
• Fast and easy adoption for different crops
• Lower power consumption and excellent straw quality, making this combine the optimal choice for straw producers

Theory of operation

Versatility on a combine is increasingly important as producers have to handle multiple crops, sometimes changing between crops during the day.

The threshing needs are very different from crop to crop. Coarse grains like corn or peas require a round bar profile that is less aggressive to ensure optimal grain quality. Small grains including grass seed, vegetables seeds, and durum wheat need intensive threshing and require a small-grain concave profile which provides aggressive threshing to separate the grain.

The sectional concave is made with a fixed concave associated to a removable design on the front where the threshing begins.

Producers will have the possibility to install three different concave profiles:

• Small-grain concave inserts
• Universal concave inserts
• Round-bar concave inserts
• Sectional concave with round-bar concave inserts

Producers can exchange the concave inserts in 15 to 20 minutes by opening the stone trap.

A screw is available on the left side and will maintain the concave inserts in the working position. When the operator loosens the screw, he can easily remove the two inserts and replace them with another set of inserts.

On the right side, the operator has the capability via a screw to install or remove the swing in/out booster bar.

The machine will be delivered with small-grain inserts installed and can receive additional universal inserts as factory installed (in storage) or round-bar inserts as dealer installed.

Corn harvest

Corn harvest

When harvesting corn grain, quality is key. The threshing and separating process must be done extremely gently and all crop-engaging components must be operated at lower speeds. The corn package includes a wide range of speed reduction components such as the 15/33 feederhouse speed-reduction sprocket and T-separator speed reduction, which guarantees excellent grain quality even under dry conditions.

A brush sealing kit comes installed on the side panels around the cleaning shoe fan air inlet. This prevents corn leaves from being sucked into the cleaning shoe where they potentially can plug the louvers and cause insufficient cleaning shoe performance resulting in dirty grain tank samples or high grain losses.

The dual-range cylinder drive must be ordered in combination with the corn package and is dealer-installed.

Drive parts to slow down the unloading auger come by-packed and are especially recommended in high-moisture corn harvest (more than 32 percent moisture) to reduce the risk of unloading auger blockage or premature shear bolt failure. For dry corn harvest (below 32 percent moisture), the unloading rate can be reduced by adjusting the grain tank cross auger covers to a lower position (please refer to the operator’s manual).

To avoid damage on the straw chopper, the dual-range chopper drive must be ordered in combination with the corn package and is dealer-installed. To avoid further damage at the chopper housing and the straw hood, a cob deflector plus stationary knife cover comes by-packed with the machine.

To prevent damage on the chaff spreader disk or housing, a speed reduction valve comes installed when the corn package is ordered. This reduces the chaff spreader speed.

The clean-grain elevator can be equipped with stainless-steel paddles for reliable clean-grain transportation and a slip clutch to prevent blockage inside the housing or elevator chain/drive belt damage due to the higher amount of grain. This slip clutch is strongly recommended in wet harvesting conditions (above 32 percent grain moisture) and needs to be ordered separately.

Factory installed:

• Dual-range cylinder drive
• Dual-speed chopper drive
• Chaff spreader speed reduction valve

By-packed:

• Feederhouse speed reduction sprocket 15/33
• Stone trap cover plate
• Cylinder filling plates
• Unloading auger speed reduction sprockets
• Cleaning shoe fan air inlet brush kit
• Corn cob deflector for rear hood (fine-cut and extra-fine cut chopper)
• Counter knife cover (fine-cut and extra-fine cut chopper)
• Extra-large separator speed reduction (T-Series only)

NOTE: Code 8526 clean grain elevator slip clutch is highly recommended for wet corn harvest (more than 32 percent moisture) ™ not included in corn package.

Pre-selection when corn package is ordered:

• Dual-speed cylinder drive (code 4420)
• Dual-speed chopper drive (code 8570)

To ensure excellent cleaning shoe performance of the Dyna-Flo© Plus cleaning system, a wide range of cleaning shoe elements are offered that are specially designed for corn harvest.

The premium corn cleaning shoe elements ensure excellent cleaning shoe performance in dry or medium moisture conditions, which results in excellent grain tank quality. In high-moisture conditions, they avoid plug-in of louver elements, which ensures the machine keeps harvesting and eliminates the need for the operator to stop the machine and clean the chaffer elements to avoid excessive grain losses.

The corn cob mix (CCM) frog-mouth elements provide a wide 80-mm (3.1-in.) opening, enabling a big portion of the cobs to pass the chaffer element and be collected in the grain tank.

The tailings cover kit is required when the machine is operated without a lower sieve.

Grass seed

Grass field

Harvesting grass seed requires optimum air flow distribution resulting in excellent cleaning shoe performance as the very light grass seeds are extremely sensitive to uneven air flow. This causes either losses by being blown out the back or shaken out in case they come in direct contact with the louver elements.

The grass package must be ordered with the dual-range fan drive that reduces the fan speed range down to 300 rpm, which is zero to none especially for extremely light seed varieties such as grass seed.

To ensure optimum grain handling, the grass package must be ordered with the grain elevator slip clutch, including steel paddles. The steel paddles whip out the elevator housing and ensure crop does not accumulate, especially when doing straight-cut grass harvest where moisture might be higher. The grain elevator slip clutch avoids premature belt or drive component failure.

A U-joint paddle comes installed on the transition housing of the grain-tank filling auger, which ensures active material conveyance and avoids risk of accumulation and plugging of the grain-tank filling auger.

The vertical unloading auger inside the grain tank is factory installed as rice auger version. The auger has thicker flights, ensuring maximum lifetime and avoiding the bending of auger flights which could cause a blockage of the entire unloading auger.

As the quick-adjustable auger covers must be set at a very high position, especially in higher moisture grass seed, it is strongly recommended to install the by-packed unloading auger speed reduction sprockets.

Factory installed:

• Unloading auger as rice version with double flight thickness (code 8530)
• High-moisture grain handling system (code 8523)
• Clean-grain elevator slip clutch
• Dual-range fan drive
• Clean grain elevator to filling auger U-joint paddle

By-packed:

• Unloading auger speed reduction sprockets

Pre-selection when grass package is ordered:

• Clean grain elevator slip clutch (code 8526)
• Dual-range fan drive (code 8405)

The fast unloading system of the T670 provides a rate of 125 L/sec (3.3 bu/sec). Compared to the previous unloading system, this ensures an unloading rate that is 50 percent faster and is reflected as a time saving when unloading on the headland.

The higher unload rate is achieved by grain tank cross augers, an increased discharge housing including vertical auger, and an overall higher speed of the unloading system.

Threshing and separation concept of T-Series Combine

Functional components:

1. Large, 660-mm (26-in.) diameter threshing cylinder with 10 rasp bars and increased concave area
2. Smooth stripper roll and enlarged overshot beater
3. Enlarged, 800-mm (31.5-in.) separator with high-performance separation grate
4. Eight-wing, 400-mm (15.7-in.) rear beater and rear beater grate
5. Seven-step straw walker design with welded or optional bolted universal and corn-cob mix (CCM) grids
6. Sectional concave with quick adjustable de-awning plates

Large, 660-mm (26-in.) threshing cylinder with 10 rasp bars and enlarged concave

The unique multi-drum threshing system ensures a consistent crop flow by moving crop above the rear beater without sharp bends or abrupt changes in direction. This guarantees excellent grain and straw quality and reduces power requirements.

The large, 10-rasp bar threshing cylinder with 660-mm (26-in.) diameter provides excellent grain quality and gentle material handling.

Combined with the enlarged wrapping angle of 124 degrees, this ensures excellent threshing efficiency and unmatched capacity even in tough separating conditions.

• Four rasp bars are in constant contact with the crop against the concave area for excellent threshing and separating
• Provides a large concave area and allows a slow cylinder speed
• Ensures gentle threshing and separation to reduce grain damage
• Large, concave wrapping angle ensures high grain separation right at the beginning and reduces separation load on the straw walkers
• Wide, 1670-mm (65.7-in.) (six-walker) channel width grants maximum throughput even in tough separating conditions

Stripper drum and overshot beater

Stripper drum

Overshot beater

The T-Series Combine threshing system uses a smooth surface stripper roller behind the threshing cylinder to gently direct the material to the overshot beater. This prevents material from back feeding on the threshing cylinder, eliminating blockages of the cylinder. The stripper roller speed runs at 125 percent ratio of the threshing cylinder speed.

The 500-mm (19.7-in.) overshot beater on the T-Series Combine continues the material flow process. Material travels over the top of the beater and is directed into the separation drum.

Smooth crop flow is achieved without harsh angles or abrupt changes in direction.

The eight-wing beater has a constant speed. The serrated design of the wings’ leading edges engages the mat of material and moves the high volumes of tough, damp straw without buildup or bunching.

Sectional concave with quick adjustable de-awning plates

Sectional concave with small-grain inserts

Feature benefits:

• High versatility and flexibility with three different concave inserts available
• Uptime ensured with fast exchange design
• Easy access from stone trap and storage position for the concave inserts

Extra-large separator and dynamic tangential grate

The 800-mm (31.5-in.) extra-large separator drum provides additional separation capacity on the T-Series Combine. Due to the open design, the drum is not heavier in weight than the previous closed design.

The extra-large separator drum runs at two factory-installed speeds:

• 760 rpm for small grain and grass seed
• 380 rpm for canola, peas, and beans

There is an optional 270-rpm speed reduction kit available for corn harvest which is included in the corn package. Swapping the belt speed can be done easily and quickly by changing the drive pulley via a lever-operated tension pulley.

The extra-large separator drum runs at a lower speed compared to the previous T670 design that was operated at 900/450 rpm. While it seems that higher drum speeds result in more efficient separation capacity caused by the higher centrifugal force, the opposite effect has been measured. While the centrifugal force has a vital impact on the separation capacity, speeds of the separator drum that are too high result in low exposure time in the high-performance separator grate. This is shown in the following graph.

Comparison of separator speed

Comparison of separator speed

The red line indicates the performance delta at a loss level of one percent between the different separator speeds.

The dynamic tangential grate (new beginning in model year 2019) features a completely updated design equipped with a full wire profile as described below.

Dynamic tangential grate

For model year 2019 and newer, the design was changed for fewer restrictions on crop flow and optimal separation that would not affect straw quality.

• All the transversal bars are produced with round edges for better crop flow and straw quality.
• All the wires are repositioned as close to the upper edge as possible to prevent any straw accumulation, therefore improving separation capacity.
• The wires are implemented on the complete area and replace finger rakes for larger opening areas (+10 percent opening area versus model year 2016 tangential grate).

Rear beater and rear beater grate

Rear beater

The 400-mm (15.7-in.) rear beater on the T-Series Combine continues the material flow process. The beater delivers material to the straw walkers. The beater is driven directly from the extra-large separator drum and is operated at two speeds.

• 900 rpm for small grain and grass seed
• 450 rpm for rape seed, corn, peas, and beans

A separation grate is mounted underneath the rear beater. The grate is adjustable with a handle on the right side.

The rear separation grate features 14 percent more open area in the separator grid and a fully rounded profile on the wires and cross bars. This creates a better separation effect thanks to a faster, unobstructed crop flow over the grid with a thinner layer of material to boost the separation of kernels trapped in straw.

Two positions are available:

• Wide position recommended in rape seed, corn, peas, beans, or other sensitive crops
• Narrow position for small grain or grass seed

Inside the T-Series threshing and separation system is an eight-winged, rear beater drum that separates the remaining grain out of the straw mat. The rear beater grate provides additional active separation area.

Straw walker concept

Seven-step straw walker design

The T-Series Combine has a seven-step straw walker concept. Compared to the previous T-Series, the model year 2017 and newer straw walker is extended by 80 mm (3.15 in.), which results in a slightly increased overall straw walker area (+ 0.1 m² [1.08 sq ft]). The concept of low walker rpm and high walker stroke provides efficient tossing to fluff even largest straw mats and open channels for the free grains to drop through. This results in most efficient grain separation capability. The straw walker is available with welded or bolted universal and CCM grids for best-in-class reconfiguration and ability to retrofit for all crops and conditions.

The straw walker is equipped with a closed walker trough at the rear, which ensures the grain is captured in the trough and feeds evenly on the walker return pan that is mounted below the front section of the walkers. Section dividers on the return pan help to maintain an even distribution of material onto the front chaffer of the cleaning system, even on slopes.

• High throw provides efficient tossing to fluff even the largest straw mats and open channels for the kernels to drop through.
• Maximum grain separation is achieved at the front section due to the impact of the straw mat when hitting the first walker steps.
• Four shallow, angled steps provide maximum separating efficiency.

Different walker grids are available to match all crop and conditions.

Overall threshing and separation system benefits:

• Greater level of productivity due to the enlarged concave wrapping angle, extra-large separator drum, and the high-performance separator grate
• Best-in-class grain and straw quality can be achieved with the threshing and separating concept
• Fast and easy adoption for different crops
• Lower power consumption and excellent straw quality, making this combine the optimal choice for straw producers

Theory of operation

Versatility on a combine is increasingly important as producers must handle multiple crops, sometimes changing between crops during the day.

The threshing needs are very different from crop to crop. Coarse grains like corn or peas require a round bar profile that is less aggressive to ensure optimal grain quality. Small grains including grass seed, vegetables seeds, and durum wheat need intensive threshing and require a small-grain concave profile which provides aggressive threshing to separate the grain.

The sectional concave is made with a fixed concave associated to a removable design on the front where the threshing begins.

Producers can install three different concave profiles:

• Small-grain concave inserts
• Universal concave inserts
• Round-bar concave inserts
• Sectional concave with round-bar concave inserts

Producers can exchange the concave inserts in 15 to 20 minutes by opening the stone trap.

Concave inserts can be exchanged on the combine

A screw is available on the left side and maintains the concave inserts in the working position. When the operator loosens the screw, he can easily remove the two inserts and replace them with another set of inserts.

On the right side, the operator has the capability via a screw to install or remove the swing in/out booster bar.

The machine is delivered with small-grain inserts installed and can receive additional universal inserts as factory installed (in storage) or round-bar inserts as dealer installed.

The T-Series Combine is designed for high capacity. The T670 has a total sieve and chaffer area of 6.3 m² (67.8 sq ft) according to ISO Norm 6689: 1997, which is the largest cleaning shoe following the John Deere X9 Combines.

• The Flat Tooth Comb (FTC) chaffer prevent short straw from falling through the grid as they are equipped with special noses.
• The returns are guided back to the cylinder and distributed evenly over the entire width of the threshing cylinder by an auger. The amount of material is recorded and then displayed in the cab via the electronic sensors. To visually inspect the content of the tailings returns, there is an inspection flap just outside the cab door.
• The completely redesigned fan delivers up to 740 m³ (26,133 cu ft) of air per minute and evenly distributes air over the entire width. The large air volume paired with the air flow and the large sieve area makes additional slope compensating features obsolete.
• One non-ventilated step plus two ventilated steps cascades the crop down by 41 cm (16.1 in.) to ensure effective pre-cleaning of chaff. Through intensive testing, John Deere has found the right balance between air pressure and air volume. The air pressure is used to separate the grain and the air volume allows for material to be carried away. This provides the perfect pre-separation effect and evenly divides the material between the front and rear part of the chaffer.
• The heavy-duty conveyor augers ensure active crop flow on slopes and under tough harvest conditions, meaning the cleaning shoe can be optimally loaded even in damp or sticky conditions.
• The total sieve and chaffer, with its considerably enlarged surface up to 6.3 m² (67.8 sq ft), offers high cleaning performance even under tough threshing conditions.

Remote adjustment of Dyna-Flo© Plus cleaning system

The Dyna-Flo Plus cleaning system comes standard with electric adjustment on all T670 Combines.

The remote cleaning shoe adjustment can be either completed from inside the cab on display settings or with the armrest buttons. As an alternative solution, such as when inspecting the shoe from the outside, settings can also be adjusted from the left side at the rear of the machine.

The remote cleaning shoe adjustment motors are equipped with an integrated position sensor. This eliminates the need for recalibration of the electric motors. Calibrations only need to be redone in case the electric hardware or the cleaning shoe elements get replaced. 

Quick-engage booster bar

Quick-engage booster bar adjustment

The quick-engage booster bar is adjustable from the outside via the stone trap with a 24-mm (0.95-in.) wrench. It has two positions. In the engaged position, the concave entrance features a profiled rasp bar. In the disengaged position, the concave entrance features a smooth transition plate. Adjustment can be completed easily within minutes.

Material flow coming from the feeder house passing the booster bar is slowed down; this increases the threshing efficiency. The booster bar does not have a negative influence on the crop flow or the grain quality. The booster bar increases threshing efficiency in hard-to-thresh crops without closing the de-awning plates, allowing maximum separation at the concave area.

NOTE: The booster bar is standard on the T670 Combine.

Extra fine cut chopper rotor and housing

The improved extra fine cut straw chopper delivers excellent chopping quality and best-in-class residue distribution of chopped material in the field with a cutting width up to 10.7 m (35 ft) and 108 knives.

The extra fine cut chopper comes standard with serrated chopper knives, which ensure superior splicing of the straw and improved straw rotting process. This chopper is highly recommended for producers with no tillage or minimum tillage operations.

The optional dual-speed chopper drive provides flexibility to match all crops and conditions.

Armrest adjustment

The extra fine cut chopper comes standard with a remote adjustable tailboard.

The remote adjustable vane tailboard can be adjusted from the cab conveniently via armrest control buttons (button A). The in-cab adjustment includes a unique tailboard position swap button (button B); by pressing the button on the armrest, the tailboard vanes automatically swap from left to right stored position and vice versa.

False floor geometry housing

The extra fine cut chopper housing follows the contour of the rotating knifes. This false floor geometry narrows the gap between the rotating knife and the chopper housing to a 4- to 5-mm (0.16- to 0.2-in.) closing at a wrapping angle of 83 degrees. It requires no adjustments and does not require any maintenance or replacements.

Wind paddle

The T670 with extra fine cut chopper comes standard equipped with wind paddles, which are factory installed on two knife rows. The wind paddles are mounted with bushings to withstand impacts from foreign objects. Equipped with wind paddles, the extra fine cut chopper can spread the chopped straw evenly up to 10.7 m (35 ft). Wind paddles are more effective than active radial spreaders, which are normally hydraulically driven.

Counter knives

Counter knives adjustment

The extra fine cut chopper comes standard with a counter knife row, which is infinitely adjustable with two large leavers on each side. To secure the position, only one bolt needs to be tightened at each side.

Grouser bar

Grouser bar adjustment

The extra fine cut chopper features a redesigned grouser bar, which is infinitely adjustable with a slide bar. To reduce the length of chopped material in green straw conditions, the grouser bar should be engaged. In dry straw conditions, it improves the splicing of the straw. To decrease fuel consumption, it is recommended to remove the grouser bar when chopping other crops such as corn, rape seed, beans, peas, and sunflower. 

Tailboard angle adjustment

Tailboard angle adjustment

Tailboard vane adjustment

The tailboard angle can be adjusted without tools in three positions with a lever on each side.

In addition to the three-point tailboard adjustment, the vane angle can be set in four additional positions to ensure the spreading width of the residue matches all cutting platforms up to 10.7 m (35 ft).

The extra fine cut chopper comes standard with a 10-vane electrical tailboard design.

Windrow sheet

Windrow deflector plate

Straw chopper clutch

A single lever operates the windrow deflector plate. Operated on the right side, the straw is guided into the chopper or down on the ground for windrowing.

The straw chopper is directly driven from the main engine gearcase and automatically engages with the separator drive. A heavy-duty power belt reliably transmits drive power to the chopper. A reliable clutch is used for engaging and disengaging the chopper rotor.

Achieve more with less effort

With the John Deere satellite-based, hands-free AutoTrac© steering system, every machine pass utilizes the full cutting width of your platform. This helps you save time and fuel and boost your combine performance ™ even at night, in dusty conditions, on hillside terrain, or after long hours of operation. The automatic steering relieves your operators and allows them to concentrate on productivity. When working with multiple machines in a field, the AutoTrac guidance lines can be shared from one machine to another so that all combines can harvest at the full cutting width. They can also be shared with the tractor or grain cart operator so the machines can drive exactly parallel to each other during unloading.

ICA increases the performance of a combine

With Interactive Combine Adjustment (ICA), you can increase the performance of your combine, minimize losses, avoid grain damage, and improve the quality of your straw. You can either optimize all parameters at the same time or focus on one.

Automatic Combine Adjust (ACA)

Standard on all models within the T Series, Automatic Combine Adjust helps you effortlessly transition between crop types. By using standard John Deere values and retrieving data on your current threshing and separating conditions, it automatically adapts your machine to optimize performance. You can then use these proposed values or modify and save them for later use.

HarvestSmart© system ™ Always the right speed

The HarvestSmart system automatically adapts the speed of the combine to maximize capacity or minimize losses with the highest output. Sensors on the threshing cylinder, engine, and dedicated loss sensors control the system with the goal of minimizing losses or maximizing the throughput rate.