Boom J. was correct when he wrote:
There are quite a few big guns that didn't use trunnion caps. The angle of the carriage, 3-7 degrees or so, held it all together somehow.
I still think it was quite a leap of faith to think this might work, but solid engineering prevailed.
[img width= height=]http://www.seacoastartillery.com/gallery/images/129_2929.jpg[/img]
The angle of the carriage certainly affects the design of the trunnion pockets, but I think the most important design feature is that the trunnion pockets be higher in the back. It is kind of amazing that only the weight of the barrel, and the configuration of the trunnion pockets made it possible for these large guns to be fired without the recoil making the barrel jump off the carriage. It must have been a brave/brilliant engineer that first held the concept that these carriages didn't need capsquares to hold the barrels securely.
The trunnion pocket or cradle IS higher in the back AND we know that the 3 deg. pitch of the Chassis rails makes the back edge of the pocket Even Higher. We know this to be true from studying the drawings that exist AND visiting actual carriages at forts around the country. The first carriage we studied revealed very interesting details in the area of what we call the trunnion cradle. The 1859 iron, seacoast, front pintle, barbette upper carriage we measured at Fort Pulaski near Savannah, Georgia was 40.333 in the front and 41.100" high in the back. For those measurements, we used the top surface of the Chassis rails as a Datum. Our empirical results match the math on the 1868 100 Pdr. Parrott Carriage drawing pretty well. Specified angles are not found on the 1862 drawing we have and the 1859 drawing does not exist as far as we know, if it ever did.
Our interpretation of the 1868 drawing indicates exactly what we learned in 2004 at Watervliet Arsenal, where we searched for and finally found an original 1862 iron carriage drawing. The ordnance curator we talked to explained that, although you don't find the degree numbers on the 1862 drawing, 3 degrees for the Chassis pitch and 3 degrees for the top of the Upper Carriage, the rare working drawings used in the various shops contained the information in border notes which are called General Notes, and drawn into one particular section, today. So according to him an original carriage assy. should display a total of 6 degrees forward pitch to contain the tube physically during recoil.
The math is simple and agrees with that carriage we studied in Georgia and the 6 degrees forward pitch specified on the 1868 drawing.
The top edge of the 1859, 1862 and 1868 iron, upper carriage for the 100 Pdr. Parrott is 14" long.
The deviation for 1 deg. is .0175" per inch.
The deviation for 3 deg. is .0525" per inch.
The deviation for 3 deg. is .735" per 14 inches.
The deviation for 6 deg. is 1.470" per 14 inches.
Since the trunnion dia. is 6.4", you are back to about half of that 1.470" height difference or .672", because 6.4 is 45.7% of 14.0". So, you have more than 5/8" extra metal behind the trunnion to physically block it from lifting up and out of the trunnion cradle during recoil.
Even our 1/6 scale re-creations of this gun and carriage do not have a problem with tube ejection upon firing. AND, the recoil can only be described as vicious on our guns, even with everything built to scale and fired with scale size and weight bolts and powder charges. You should have seen the dorky duo shoot the first shot! We must have used half a roll of duct tape on the tube and carriage!!
FYI,
Mike and Tracy
Fort Pulaski Parrott rifle and 1859 carriage.
Also within Confederate, Battery Magruder, at Yorktown on the Peninsula, these 8" Columbiads, are located on similar wooden, seacoast, center-pintle, barbette carriages.
