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Hitch on Planter Adjustable Clevis 2-Point hitch, ASAE Category II or III Adjustable Clevis Adjustable Clevis Adjustable Tab Hitch Adjustable Tab Hitch

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A sample of products developed and built in Fargo include (clockwise from the smallest, lower right): 1) Ruggedized level (“tilt”) sensor; 2) integrated motor and controller (used, for example, for ExactEmerge planter); 3) telematics unit, providing a built-in link between the machine and cell phone network; 4) a rugged cab “display”; 5) farm vehicle cab “controller” that interfaces with solenoids, valves and inputs; 6) a dual motor drive, used in the latest electrified John Deere transmissions; 7) yellow dome “StarFire” GPS receiver. Photo taken Dec. 6, 2022, Fargo, North Dakota.

“Imagine there’s a motor driving the transmission,” Wanner said. “When we want to slow down and lift a bucket that’s full and dump it into a crusher or truck, that slowing down normally gets burned up in the brakes as heat. With this electrified drive train, we can use the motor to slow us down and act as a generator — creating energy that can be effectively used to spin the hydraulic pump or an engine cooling fan. Electrification of the drive train on large machinery has been shown to cut fuel use by 25% or more."

Fargo engineers were instrumental in creating the ExactEmerge planter system — one of the company’s most successful models. Released in 2014, ExactEmerge uses “electrification” to control planting at high speeds. This puts two electric motors and controllers per row of a planter.

“One of them meters out the number of seeds per second that you want to put in that row,” Wanner said. “The other matches the speed of that row as it travels down the field. With electrification, we now let the second motor match the ground speed, and in fact accelerates the seed in the opposite direction that the planter is going. So, if you’re going 5 mph and it accelerate the seed atminus5 mph … the seed just drops and it doesn’t roll."

So, instead of planting at 5 mph, the farmer can plant at 10 mph with exactitude. This gets twice as many acres planted. The concept has special benefits when a 48-row wide planter turns a corner: The outside goes faster than the inside row.

The new 12-row White Planters Model 9812 offers 30" row spacing, an improved three-section frame that flexes 21 degrees up or down at each wing and a 12’ transport width. AGCO Corporation unveiled the new machine this month in Iowa, and it will be available for 2014.

"It was something that was requested through the voice of customer meetings, farmers," says Bob Boelsen, senior marketing specialist for seeding and tillage. "They wanted a 12-row planter with high-capacity Central Fill System."

The Central Fill System sits atop the planter has two 45-bu. translucent hoppers. Unlike traditional row-unit hoppers, the Central Fill System allow farmers to go farther in the field without refilling, Boelsen says. The central fill planter can be equipped with a 300-gal. liquid fertilizer system, which was considered in the design of the frame.

"There’d be so much hydraulic demand on the tractor that something would slow down, the implement would raise slow or fans would shut down. We didn’t want that to happen so now this hydraulic system will furnish all the power to the planter. The only thing the tractor has to do is lift it, raise it, close it or move the markers."

"I tried it for the first time last year and had a 1 1/2 bu. per acre yield increase over conventionally-planted beans on ridges, but I think it has the potential for even greater yield increases. The planter cost only about $3,000 to build," says Link.

He paid $450 for a used 6-row planter which was equipped with one seed hopper and blower. He mounted a seed hopper and blower off another Cyclo planter that he al-ready owned and powered both with the planter"s original pto-driven hydraulic pump.

He removed the herbicide and insecticide boxes and added six additional row units. The add-on row units mount on separate brackets behind and 7 in. to the side of the original row units. Behind the row units he mounted new 3-in. wide, 13-in. dia. single rib press wheels designed for a Great Plains drill. He mounted new Yetter row cleaning wheels on front of the planter, moving the wheels back on the existing mounting brackets so that each pair of wheels clears a strip wide enough for two rows units. He also mounted a single blade Orthman automatic guidance system on back.

"Some ridge till farmers in my area use grain drills to plant twin row soybeans by plugging up the seed cups. However, I feel my twin row planter places seed much more accurately," says Link. "Also, I didn"t have to spend $15,000 or so for a new 15-ft. drill. The automatic guidance system keeps the planter from falling off the ridges. Corn rootballs from the previous year run between the twin rows and aren"t a problem. One advantage of twin row soybeans over conventionally drilled beans is that there"s 23 in. of space between the twin rows which allows enough air movement to prevent white mold disease. Drilled soybeans do provide a quicker canopy that reduces weed problems. However, on ridges the soil warms up faster in the spring allowing earlier planting.

Twin Row Ridge Planter For Soybeans PLANTING EQUIPMENT Planters 20-2-2 Brad Link, Renville, Minn., wanted the yield increase benefits of higher soybean plant populations, but he couldn"t plant them in narrow rows because he farms on ridges. He solved the problem by converting a pair of International Cyclo 6-row air planters into a "twin row" planter that plants two rows 7 in. apart on top of ridges."I tried it for the first time last year and had a 1 1/2 bu. per acre yield increase over conventionally-planted beans on ridges, but I think it has the potential for even greater yield increases. The planter cost only about $3,000 to build," says Link.He paid $450 for a used 6-row planter which was equipped with one seed hopper and blower. He mounted a seed hopper and blower off another Cyclo planter that he al-ready owned and powered both with the planter"s original pto-driven hydraulic pump.He removed the herbicide and insecticide boxes and added six additional row units. The add-on row units mount on separate brackets behind and 7 in. to the side of the original row units. Behind the row units he mounted new 3-in. wide, 13-in. dia. single rib press wheels designed for a Great Plains drill. He mounted new Yetter row cleaning wheels on front of the planter, moving the wheels back on the existing mounting brackets so that each pair of wheels clears a strip wide enough for two rows units. He also mounted a single blade Orthman automatic guidance system on back."Some ridge till farmers in my area use grain drills to plant twin row soybeans by plugging up the seed cups. However, I feel my twin row planter places seed much more accurately," says Link. "Also, I didn"t have to spend $15,000 or so for a new 15-ft. drill. The automatic guidance system keeps the planter from falling off the ridges. Corn rootballs from the previous year run between the twin rows and aren"t a problem. One advantage of twin row soybeans over conventionally drilled beans is that there"s 23 in. of space between the twin rows which allows enough air movement to prevent white mold disease. Drilled soybeans do provide a quicker canopy that reduces weed problems. However, on ridges the soil warms up faster in the spring allowing earlier planting."I think my twin row planter will also work for planting corn. I plan to try it this spring."Link made his own brackets for the press wheels that allow him to adjust depth control by simply changing the position of a couple of cotter pins. "I used grain drill press wheels because they make a groove in the soil where the soil later cracks, allowing the seed to pop up easily," says Link. "I staggered the row units 6 in. apart so that mud and trash won"t plug them up."He paid $1,500 for the guidance system, $40 apiece for the press wheels, and $140 apiece for the row clearing wheels. Contact: FARM SHOW Followup, Brad Link, Rt. 1, Box 116, Renville, Minn. 56284 (ph 612 329-3101).

This year was our first attempt at variable rate seeding. It was also our first year with Optimizer a product which provides the variable rate prescriptions among other data. As always this spring we were in a rush to get things planted according to Mother Natures schedule. The first three fields I tried it on failed, as it kept kicking off half of my planter whenever I got to a boundary or waterway. I tried adjusting the auto swath out of boundary settings so that it would keep the rate unchanged, and even disabled auto swath around the field edges but still half of my planter next to that boundary would disengage. Finally after talking it out over the phone a couple times it dawned upon us that the clutches weren"t disengaging but the hydraulic drive itself. So after the phone call I looked at my Integra display and sure enough there was a setting in the Equipment configuration for "Rate outside Field". Here I could finally select the Rx Default rate that we had entered when loading the shape file / Rx from Optimizer. This is what troubled us the most as we knew that rate had to come into play somewhere. Once this was configured it worked great other than some of the seeding rates being too high / low for certain parts of the field. We will be working with optimizer and another topic will be posted about that it.

Another thing I learned this spring was the two different control valve settings AgLeader uses to control oil flow / rate. During spring testing and repairing a bad shaft speed sensor I was in this screen on the Integra. I didn"t realize that you only used one of these settings (PWM or Servo) and was double checking the numbers entered from my old monitor. Well when I exited the screen I wasn"t making sure that PWM was selected which was causing erratic meter / plate behavior on that drive. White planters use PWM and once I realized this everything worked great. Hope this can save someone some headaches in the future as the drop down menu doesn"t really make it appear that you are actually selecting the mode and not verifying settings. After reading about what each does this makes sense but to someone who is just trying to get the planter going in the spring this might help.

Quick Note...disable logging during your spring planter testing. I was testing drive chains and shaft alignments and experienced some frustration because I had logging enabled on the Integra. I entered a manual rate of 5 mph to simulate. Well after hooking up the implement switch I couldn"t figure out why some of the clutches wouldn"t turn on. The problem was random and the issue changed rows which made it more confusing. I finally realized logging was enabled making auto swath kick them off since I wasn"t moving. Only took me 15-20 minutes to figure this out. Once logging was disabled I was able to see every row operate. Should have known better to disable it from the beginning!

After browsing newagtalk one night I found a post about a system called EZ-Air by Deitering Brothers here in Iowa. It allows one to change the singluation blower pressure on our White Planter from inside the cab. Before this product, we had to get out of the cab and adjust the knob on the planter toolbar to do this. The big reason we are excited about this is now we can see how the air pressure affects seed spacing realtime on the Integra monitor. Info on this product can be found here: EZ-AIR White Planters

One of our White 8824 hydraulic drives was not showing up on the Integra monitor this spring as we removed it from storage. After a couple hours of troubleshooting we found out that it was the shaft speed sensor on the White planter. The agleader cable plugs into it for its shaft data. It was kind of hard to troubleshoot. We tested by putting a manual 5.0 mph simulation on the display to get the shaft to turn. When we stood behind the planter the hydraulic drive, which was not being identified, was turning much faster. Also noticed that we lost singluation blower air pressure once the clutches were turned on. When the clutches were disabled, air pressure returned. Note our planter does not have a PTO pump so both the hydraulic drive and blowers are ran by a single valve. Once we identified the shaft sensor this made sense as the display was directing all available oil pressure to the shaft to get it to turn which robbed the air oil. Another step we took in troubleshooting was swapping the seed command cables from channels 1 and 2 to see what effect it had.

Given I am unable to plant today due to the wet weather, I figured it would be a good time to post what I have learned so far using our White 8824 planter for the first time. Once we got all the initial issues worked out it has been planting flat seed corn in the 97%-98% singulation range and rounds at 98% to 99.6%. We are using an AgLeader Integra monitor. I have been very impressed with this planter so far.

Our planter was used and after looking at how much the plates were touching the cutoff brushes we decided to reduce the amount of shims to 1 for most of the meters. We shouldn"t" have to change this until we buy new brushes. New brushes normally require 3 shims.

If half of the planter is not planting as heavy (ours was off 500 to 1000 bushels compared to the other 12 rows) change your meter calibration for that side. We had calibrated it before the season but our test on that side must have been incorrect. Everything was fine was I adjusted it to equal the other 12 rows / hydraulic drive.

Again, overall very impressed with what I have seen so far with this planter. To get 99% accuracy out of the factory is pretty darn good. We were able to achieve that with our Deere 1760 but only through the use of Precision Planting eSet meters. Only negatives I have right now is the weight in gummy conditions and the folding mechanism. Folding can be a little tricky if you don"t have a completely level area to perform it. Last, I have attached our operating sheet which we place in the tractor for this planter. If it helps anyone else out there feel free to use it.