Treadwell v. Parrott

24 F. Cas. 154, 5 Blatchf. 369

This text of 24 F. Cas. 154 (Treadwell v. Parrott) is published on Counsel Stack Legal Research, covering U.S. Circuit Court for the District of Southern New York primary law. Counsel Stack provides free access to over 12 million legal documents including statutes, case law, regulations, and constitutions.

Bluebook
Treadwell v. Parrott, 24 F. Cas. 154, 5 Blatchf. 369 (circtsdny 1860).

Opinion

NELSON, Circuit Justice.

The specification of the original-patent describes very par[155]*155ticularly the mode of construction of the cannon. The patentee first casts the cannon, having at its largest part a diameter about twice as great as the calibre. It is then bored, and the outside is turned. A screw is cut on the body. Hoops or rings are then formed of wrought iron, and a female screw is cut on the inside, to fit the threads cut on the body, and the hoops are finished with their interior diameters about Viooo Part less than the diameter of the male screw to be encircled. The hoop is then heated, to expand it sufficiently to turn it on to its place. An indefinite number of hoops or rings may be thus put^on the body of the gun, and also other hoops formed in the same way over the first series. The claim in the original patent is as follows: “I do not claim a patent for using hoops generally in making cannon, as the earliest cannon, known were formed in part by hoops brazed upon them. But my invention consists in constructing cannon with hoops screwed and shrunk upon a body in which the calibre is formed in the manner herein described.”

The description of the mode of constructing the cannon, in the specification of the reissued patent, is the same, in hsec verba, as in the original, the difference consisting only in the explanation given of the principles which led to the construction. In the reissued patent, the invention is claimed as follows: “First. In making a cannon consisting of a body, (in which the calibre is formed,) the walls of which are of one piece, surrounded by rings, hoops, or tubes, in one or more layers, placed upon said body under great' strain, by which said body is compressed and the natural equilibrium of the molecules, or particles, of which it is composed, disturbed by their being brought nearer together; and this is accomplished in the manner herein set forth, namely, by making the hoops smaller than the part which they are to surround, and then expanding them by heat and suffering them to shrink or contract after having been put in their places. Second. I also claim the method of securing the hoops to the bodj' of the gun, and the several layers of hoops to each other, by screw threads, when they shrink to their places, as above described.”

In explanation of the principles that led to the invention, the patentee refers to the Barlow law, as it is called, in which Barlow showed, that hollow cylinders of the same materials do not increase in strength in the ratio of increase in thickness, but that the-ratio of increase in strength is such, that, when they become of considerable thickness, the strength falls enormously below thatgiven by the ratio of thickness. The cause of the diminution in the power of resistance, it is observed by Barlow, 'may be stated as follows: “Suppose such a cylinder to be made up of a great number of thin rings or hoops, placed one within the other and exactly fitting, so that the particles of each hoop shall be in equilibrium with each other, then, the resistance of these rings, compared one with - the other, to any distending force, will be inversely as the squares of their diameters.” “Now, to obviate,” the patentee observes, “the great causes of weakness arising from the conditions before stated, and to obtain, as far as may be, the strength of wrought iron instead of that of cast iron, for cannon, I have invented the following mode of construction.” He then repeats the mode of construction already stated, and adds: “This compression (the compression of the body of the gun by the hoops) must be made such, that when the gun is subjected to the great-. est force, the body of the gun and the several layers of rings will be distended to the fracturing point at the same time, and thus all take a portion of the strain up to its bearing capacity.” He observes: “There may, at first view, seem to be a great practical difficulty in making the hoops of the exact size required to produce the necessary compression; but wrought iron and all malleable bodies are capable of being extended, without fracture, much beyond their power of elasticity. They may, therefore, be greatly elongated without being weakened. Hence we have only to form the hoops small in excess, and they will accommodate themselves under the strain without the least injury. It will be found best, in practice, therefore, to make the difference between the diameters of the hoops and the parts they surround considerably more than one-thousandth part of a diameter.” The result he arrives at is, that “a gun thus made will be nearly four times as strong as a cast iron gun of the same weight, wrought iron being taken at only twice the strength of cast iron.” Whether this result, to the extent claimed, is well founded or not, is a fact which it is not important either to admit or deny; but I entertain no doubt that the improvement thus made on the cast iron gun is very considerable, and entitles the inventor, whoever he may be, to the protection of the fruits of his invention.

Some question has been made as to the practicability of the contrivance for securing the benefit of the rings or. hoops on the gun by means of screws, but I do not deem it material to examine it. If the case turned on it, I should incline, on the proofs, to uphold the patent notwithstanding the objection. Nor do I entertain any serious doubt, that, upon a fair and liberal construction of the specification and claims, which construction I am always disposed to give to these instruments, in behalf of a very useful and meritorious class of citizens, the improvement of the patentee was intended to be confined to cast iron guns. A gun of this material is mentioned in the specifications of the original and reissued patents, and no other.

In my view of the case, the only material and difficult question is, whether or not the [156]*156patentee is the original and first inventor, of the improvement. I have paused upon this question some time, and given to it all the attention and examination consistent with other cases; and, after the best consideration, have been compelled to the conclusion that he is not. I shall, as briefly as practicable, state the grounds of this conclusion.

The improvement of a cast iron gun, by combining with it a wrought iron envelope, was discussed by a French officer (Thiery) as early as 1834, and is found in a publication of that date. After speaking of the liability of cast iron guns to burst, and the evils attendant, he observes: “We have thought that the combination of wrought iron and cast iron, which has contributed so much to the powers of steam-engines, would also present happy effects in the construction of cannon. It is in this view that we have proposed the trial of a cannon of cast iron with an envelope of wrought iron, adding to the resistance of the piece of ordnance, and preserving, in explosions, from the danger of fragments.” Again, after speaking of the importance of using cast iron for the body of the gun, he observes: “This metal, having but very little elasticity, resists the explosion of the powder principally by virtue of its resistance to extension. This resistance once overcome, the cast iron would not evidently find any assistance against rupture from a surrounding body more elastic, and which yields beyond the limit at which its cohesion is destroyed.

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24 F. Cas. 154, 5 Blatchf. 369, Counsel Stack Legal Research, https://law.counselstack.com/opinion/treadwell-v-parrott-circtsdny-1860.