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The Spring Tooth Harrow – Ease of Transportation

The Hillco model can be hydraulically spread out and set up without getting out of the cab saving your body and saving you time. The dual wing wheels pivot from transport to field mode as you wing the Spring Tooth cart out.

Yes! the Hillco Spring Tooth can be switched from the comfort of the cabin from field mode to transport mode. 

The short answer is no. The design of the Hillco Spring Tooth saves farmers time and money. Keep reading below to learn more. 

The Spring Tooth Harrow - Ease of Transportation

Farmers who have used a Spring Tooth Harrow understand the hassle and time that comes with preparing it for transportation. Historically, farmers have been required to manually spread in and out the wings on a Spring Tooth cart, requiring them to get in and out of the tractor and consuming precious time that could otherwise be put to good use.

Look forward to the new age Spring Tooth and the multitude of conveniences that it provides – including getting in and out of transportation mode with simplicity using the assistance of hydraulics. The Hillco Spring Tooth has been designed to change from field mode to transport mode all from the comfort of the cab.

To transition from field mode to the transport position, you simply rotate the Spring Tooth to the upright position. Once raised you’ll rotate the wing wheels, so they are at a 45-degree angle to the wing beams and then drive forward until the wings are straight behind the cart. Of course, you are provided with safety stops to pin into place before traveling down the road.
Getting back into field mode is simple as well. Hillco used a design that incorporates steel pull arms that are used in place of cables to create an efficient and easy way to fold in and out the wing beams in about 30 seconds. The weight of the pull arms is supported by a latching guide to prevent them from flopping around and an automatic latching mechanism is activated by push rods to guide and help align the latching mechanism.

As ever cognizant of the farmer’s needs, Hillco’s swift design makes it so that farmers can fold their Spring Tooth into transport or field mode in no time. Saving farmers time and money as well as providing a less intensive labor process. The Hillco Spring Tooth is designed with well thought conveniences and top-notch performance.

To learn more about the Spring Tooth’s features, send us an inquiry on our website or give us a call at 800-937-2461

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Return on Investment Calculator

This calculator is designed to determine the return on investment for a Hillco leveling system equipped combine versus a non-leveling combine operating in sloping conditions.

Crop Type
Wheat       Corn and Soybean
Acreage Information

Crop Information

Enter your operation's statistics and estimates.
Wheat
Corn
Soybeans

Acreage / Slope Information

Estimate the percentage of total harvested acres that lay within the various slope ranges in your farming operation.
For all Wheat Acreage
See Slope reference chart
Percentage slope values must equal 100%
100%
Your Harvest Speeds and Machine Harvested Yield (MHY)

Non-Leveling Ground Speed in MPH

Enter the average harvesting speed for your non-leveling combine in the various slope ranges at the average yield entered in the Crop Information section above.

Slope Reference Graph
Wheat
Corn
Soy

Reduction in Machine Harvested Yield (bu/acre)

Estimate the reduction of Machine Harvested Yield (MHY) for each slope range if you were harvesting at the speed you entered for 0-3% slopes. (The calcultor will then project expected reductions in MHY for each slope range at your previously estimated ground speeds.)

You may opt to enter the test data which was determined by actual field testing by Hillco (based on 5 mph harvesting speed).

Reduction in MHY is used in these calculations rather than field loss. Reduction in MHY is a more accurate guage of combine harvesting efficiency because it can be determined by actually weighing the harvested yield rather than estimating the amount of yield lost to the ground.

Use test data or your own
Corn
Soy
Your Combine and Header Information
Enter your expected combine harvesting efficiency. Typically a combine operates at approximately 70% efficiency. If the Total Annual Separator Hours calculated below look too small you may want to decrease the combine efficiency. If the Total Annual Separator Hours calculated below look too large you may want to increase the combine efficiency.
Wheat head width in feet
Corn head width in feet
Flex header width in feet
Combine Field Efficiency (Typically 70%)
(Must enter value other than 0%)
Your Operational Costs
This total should include additional cost of benefits and taxes. If you wish to include the grain cart operator's cost add the hourly wage to the combine operator hourly labor costs.
Combine Operator Labor Cost (per hour, including taxes and benefits)
Combine Fuel Cost

If you wish to include added grain cart fuel add hourly grain cart fuel usage to the combine fuel usage.

Combine Fuel Consumption (Hourly - Typically 11-13 gph)

Cost per added separator hour usually runs approximately $180 per hour for new combines to $30 per hour for older used combines. If you don't want to consider the added benefit of lower separator hours enter $0.

Cost Per Separator Hour
(How much does your combine devalue for each added separator hour of use?)

Use example prices below or obtain a quote from your local dealership.

List price examples for leveling systems used on John Deere combines:
Leveling System Model 2955S for -- 9560-70 STS combine dual tire, w/ Hillco Leveler Installed = $42,960.00 List Price

Leveling System Model 2970S for -- 96-97-9860-70 STS combine,dual tire w/ Hillco Leveler Installed = $42,085.00 List Price

List price examples for leveling systems used on Case-IH combines:
Leveling System Model 2800 for -- 2577-88 combine, dual tire w/Hillco Leveler, Installed = $42,210.00 List Price


See examples or call your local dealership for a quote.
(On Leveling System Financing)

Enter the number of years (from 1 to 5, whole number) for the desired calculation period.

Market value at the end of 5 years regardless of the length of the calculation period.

Used in net present value calculation

Cash Flows (Totals for Calculation Period)
Positive Cash Flows
Labor Savings
0
Fuel and Lubcriation Savings
0
Increased Income from Machine Harvested Yield
0
Residual Value of Leveling System (At end of Calculation Period)
0
Increased Combine Value Due to Reduced Separator Hours
0
Total Positive Cash Flows
0
Negative Cash Flows
Leveling System Cost (Total Principle & Interest Payments)
-0
Remaining Principle Balance On 5 Year Note
-0
Leveling System Maintenance Cost (Annual 2% of Purchase Price)
-0
Total Negative Cash Flows
-0
Total Net Cash Flow (Positive - Negative)
0
Investment Analysis
Total Average Annual Separator Hours (without leveling system)
0
Total Average Annual Separator Hours (with leveling system)
0
Average Annual Separator Hour Savings
0
Total Separator Hour Savings as % of Total Separator Hours
0
Average Payback Period (in years)
The length of time it takes for an investment to recover its initial cost.
0
Total Net Present Value of Cash Flows
NPV compares the value of a dollar today to the value of that same dollar in the future, taking inflation and returns into account.
0
Internal Rate of Return
The internal rate of return (IRR) method allows you to consider the time value of money. It is the interest rate that is equivalent to the dollar returns you expect from your project. Once you know the rate, you can compare it to the rates you could earn by investing your money in other projects or investments. Usually a business owner will insist that in order to be acceptable, a project must be expected to earn an IRR that is at least several percentage points higher than the cost of borrowing, to compensate the company for its risk, time, and trouble associated with the project.
0