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Shelbourne Reynolds
Engineering Ltd.

Shepherds Grove
Stanton
Bury St Edmunds
Suffolk
IP31 2AR
England

Tel:
Fax:

+44 (0) 1359 250415
+44 (0) 1359 250464

Shelbourne Reynolds Inc.

1250 South Country Club Drive
P.O. Box 607
Colby, Kansas 67701
USA

Tel:
Fax:

(785) 462-6299
(785) 462-6761

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Harvesting » Stripper Header » How to setup your combine

JD STS Combine Settings

printable page
 

Wheat
(10-30 bu/ac) 

Wheat
(30-50 bu/ac) 

Wheat
(>50 bu/ac) 

Rice 

 Auger Fingers

 20

20 

20 

20 

 Feeder Chain Position

 Down

 Up

Up 

Up 

 Front Dust Shield

 Fitted

Fitted 

Top Removed 

Top Removed 

 1st Concave

 Small wire

Small wire  

Small wire 

Round Bar 

 2nd Concave

 Small wire

Small wire 

Small wire 

Round Bar 

 3rd Concave

 Small wire

Small wire 

Small wire 

Round Bar 

 Concave Closer Bands

 Fitted 1st, 2nd & 5th position

Fitted 1st, 2nd & 5th position 

Fitted 1st, 2nd & 5th position 

None Fitted 

 Separator Grate Closer Plates

 3 rows on left

3 rows on left 

3 rows on left 

2 rows on left 

 L/H Auger Bed Deflector

 Fully Extended

Fully Extended 

Fully Extended 

Fully Extended 

 R/H Auger Bed Deflector

 Removed

Removed 

Removed 

Removed 

 Sidehill Chaffer Plates

 Removed

Removed 

Removed 

Removed 

 Concave Position

 0-4

0-4 

0-6 

4-8 

 Header Rotor Speed (rpm)

 550-650

450-550 

450-650 

430-500 

 Header Auger Speed (rpm)

 185

185 

185 

185 

 Combine Rotor Speed (rpm)

 650

600 

550 

500 

 Cleaning Fan (rpm)

1200

*900 

1250

*1000 

1350

*1150 

1350

*1150 

 Top Chaffer

 17

17 

19 

22 

 Bottom Sieve

 6

22 

* 60 Series

JD STS Trouble Shooting

The most critical aspect of setting up an STS combine and Stripper Header is ensuring that an even load of material is maintained across the full width of the sieve from the rotor and that the material is split evenly between the rotor and sieves for separation. The direction of the rotor naturally tends to load the left side of the
sieve, this then leads to losses on the left side and under-utilisation of the right side of the machine. In order to create an equal loading the sidehill sieve dividers and plates must be removed to allow the material to spread out, the right side shoe feed auger deflector must be removed and the left side auger deflector must be adjusted all the way out. Rear Separator blanking plates can then be used to fine tune the job, generally either 2 or 3 rows (8 or 12) are needed. It is very important to perform a ‘kill stop’ (stop the combine fully loaded) to check the grain and material other than grain (M.O.G.) distribution patterns within the combine.

The combine is not feeding smoothly
Ensure that the feed accelerator roller at the top of the feeder house is in the fast position (inner pulleys) and that the large feederchain drive sprocket is fitted on the right side at the front of the feederhouse.
If ‘slugging’ is still experienced it may be necessary to lower the concave.

Combine rotor loss is experienced
Raise concaves to ensure grain is forced through, adjust rotor speed & check grain loss monitor.

Combine sieve loss is experienced
Generally opening up the sieves more and increasing the fan speed will give greater sieve capacity, ensure that the balance is correct of splitting the load between the sieves and rotor, it may be that the rotor is way under capacity yet you are overloading the sieves. In this case it will be necessary to fit more blanking bands in the rotor to prevent such a high proportion of material falling onto the sieves.

Unthreshed heads appear in grain sample
In this case it will be necessary to either close the concave a little to provide better threshing or fit additional concave blanking bands. It is initially recommended to fit these in position 1, 2 and 5. It may be necessary to fit these in position 3 also. In particularly tough threshing varieties it might be beneficial to close the bottom sieve and run these unthreshed heads through the combines return system.