Yes forklift styleNot sure what you mean by a "backwards tractor". Do you mean one that's been converted to a fork lift or something similar? As long as it's got the original 4 speed transmission and the Sherman reverser was made for the 8N, then it will fit in the transmission, but you will probably need to modify the external shifter with some sort of linkage so that it can be reached easily if you're sitting backwards on the tractor.
Flip the ring gear around??Yes forklift style
Didn't know if it was possible to flip the ring gear around like some models
Yes some model tractor you can move the ring gear to the other side of the pinion shaft in the rearedFlip the ring gear around??
The Sherman reverser sounds like the complete answer. I can't understand why he would need to modify the shift linkage though.Not sure what you mean by a "backwards tractor". Do you mean one that's been converted to a fork lift or something similar? As long as it's got the original 4 speed transmission and the Sherman reverser was made for the 8N, then it will fit in the transmission, but you will probably need to modify the external shifter with some sort of linkage so that it can be reached easily if you're sitting backwards on the tractor.
Yea one of those would be ideal but unfortunately this tractor does not have one.The Sherman reverser sounds like the complete answer. I can't understand why he would need to modify the shift linkage though.
When he wanted to go backwards he would shift the Sherman to make it so and then turn the seat around or twist his body around and then his neck even further around and drive it backwards. When he wanted to go forward he would stop, turn the seat around or straighten his spine around so his arm could reach the shifter linkage.
I know this can be done on many Farmall final drives. The differential is flipped 180 degrees and drives on the opposite side of the pinion, so the rear axle is driven backwards in the normal forward gears. This also requires a different top cover with the gear shift and shift rails swapped to the right side because when flipped the ring gear is now where the shifter was originally and it has no clearance. IH had this setup mainly to place a tractor as a drive unit for a cotton picker.Flip the ring gear around??
That tells me exactly what I was looking intoI know this can be done on many Farmall final drives. The differential is flipped 180 degrees and drives on the opposite side of the pinion, so the rear axle is driven backwards in the normal forward gears. This also requires a different top cover with the gear shift and shift rails swapped to the right side because when flipped the ring gear is now where the shifter was originally and it has no clearance. IH had this setup mainly to place a tractor as a drive unit for a cotton picker.
Joey, a Ford 8N has no bull gears so the differential sets between the rear wheels on the axle centerline. The differential cannot be flipped because of the offset of the casting that mounts the pinion gear shaft, see red circle in the photo. If you could see the other side you would see there is not room there for the ring gear or maybe vise versa, ya the other side is where the ring gear sets.
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The issue is that the tractor has a fork lift conversion. The fork lift is at what would normally be the rear of the tractor where the 3 point arms would normally be, and the seat faces the opposite of on a normal tractor also. The controls, including the steering wheel, gear shifter, throttle, choke, etc. have all been relocated to make them convenient to reach with the seat facing in the opposite direction from normal. There is likely also a lot of sheet metal between the seat and the bell housing, so it would be difficult to reach the normal position where the Sherman control handle would be.The Sherman reverser sounds like the complete answer. I can't understand why he would need to modify the shift linkage though.
When he wanted to go backwards he would shift the Sherman to make it so and then turn the seat around or twist his body around and then his neck even further around and drive it backwards. When he wanted to go forward he would stop, turn the seat around or straighten his spine around so his arm could reach the shifter linkage.
A tractor won't make a very good forklift. It's a size of the wheels issue.
When a load is picked up, and is up several feet in the air, it's a great big bummer to have the forklift and load pivot around the drive axle, and then dump the load, at which point the steering axle, which has been lifted up into the air, comes crashing down.
So making the drive wheels small moves that pivot point closer to the load and closer to the ground. A smaller wheel, smaller the better, engineering wise increases what size load it can safely lift and carry.
So forklifts need to have the smallest wheels and tires that can carry the load. Otherwise they dump the load.
As far as being useful that homemade forklift in the photo above looks too dangerous to use to me.
A tractor won't make a very good forklift. It's a size of the wheels issue.
When a load is picked up, and is up several feet in the air, it's a great big bummer to have the forklift and load pivot around the drive axle, and then dump the load, at which point the steering axle, which has been lifted up into the air, comes crashing down.
So making the drive wheels small moves that pivot point closer to the load and closer to the ground. A smaller wheel, smaller the better, engineering wise increases what size load it can safely lift and carry.
So forklifts need to have the smallest wheels and tires that can carry the load. Otherwise they dump the load.
As far as being useful that homemade forklift in the photo above looks too dangerous to use to me.


Its a great big bummer to have a small wheeled forklift stuck in the mud toA tractor won't make a very good forklift. It's a size of the wheels issue.
When a load is picked up, and is up several feet in the air, it's a great big bummer to have the forklift and load pivot around the drive axle, and then dump the load, at which point the steering axle, which has been lifted up into the air, comes crashing down.
So making the drive wheels small moves that pivot point closer to the load and closer to the ground. A smaller wheel, smaller the better, engineering wise increases what size load it can safely lift and carry.
So forklifts need to have the smallest wheels and tires that can carry the load. Otherwise they dump the load.
As far as being useful that homemade forklift in the photo above looks too dangerous to use to me.
Not every machine needs to lift a pack of lumber. When used within their designed specs they are great machines. Know your lifting capacities and know your load.The length of the tractor matters as well. The stadics factors are not hard to set up. What I was saying is the size of the wheels matter because they factor into how much the leverage the load exerts on the axle pivot point, which must be opposed by leverage produced by the length of the tractor times it's added counterweight.
Notice most of those shown above are large diesel machines designed with modest sized tractor tires, which suggests their manufacturers tended to the wheel size problem I'm talking about.
However the first two are smaller machines, look homemade. The first looks like a Ford 600 series with standard full sized field wheels, I don't think it could lift an 8 foot bunk of lumber off of a truck without tipping when it tried to back away from the truck with the lumber.
The second an International, a diesel with undersized smaller wheels than it came with. It's larger than the 600 and it looks like it would do alright, it could unload an 8 foot bunk, but it wouldn't be able to lift a 16 foot bunk of lumber without tipping forward.
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