65 F. 427 | 3rd Cir. | 1895
This suit was brought in the circuit court of the United States for the district of New Jersey to restrain
The claims alleged to be infringed are these:
“(15) In a water meter, a piston, formed of liard rubber, and having a motion of nutation, substantially as described, combined with a skeleton of strengthening material, such as steel wire, substantially as set forth.”
“(17) In a water meter, a piston, formed of hard rubber, combined with a skeleton of strengthening material, such as metal, substantially as and for the purposes set forth.”
The meter to which the Nash piston is applied may be briefly described as having a measuring circular chamber, with curved sides and conical ends, and a flat or conical disc piston, having a central ball bearing, to which piston a wobbling motion is imparted by the flow of water through the meter chamber. The meter chamber is provided with a radial partition, called an “abutment,” which separates the inlet and escape ports, and which prevents any roí ation of the piston. On the top of the meter case is a box containing a system of gear wheels and dials to register the number of complete movements of the piston, and to indicate the quantity of water passed. ■Nutating discs were not unknown before Nash’s invention, but they had been made wholly of hard rubber or wholly of metal. The objections to the use of a metal piston were (1) its weight, and its resistance to the flow of water, in consequence of its not operating as rapidly as would a piston made of lighter material; (2) if made sufficiently thin to be light enough, accuracy of measurement would be impaired; and (3) the friction between metal and metal is greater than between metal and rubber. The superior adaptation of hard rubber for use in a water-meter piston was also well known, but, prior to the invention of Nash, it had the serious and apparently insuperable defect of losing its resilience and shape by temporary immersion in hot water. Only metal pistons can be successfully used for measuring hot water; but in meters designed for the measurement of cold water the hard-rubber piston is universally admitted to be the best. Cold-water meters, however, are subjected occasionally to the entrance of hot water from either one or two causes: First, whenever the valve which is between the meter and a kitchen range or steam boiler gets out of order, and there is an excessive back pressure of steam; and, second, by the cutting off or the reduction of pressure on the supply side. The effects of this “accidental hot water-” — a phrase well known and understood by the manufacturers of water meters — are to soften the hard-rubber disc, to impair' or destroy its resilience, and to produce a radial expansion, which causes its edges to jam against the sides of the meter chamber, so that the disc becomes warped, changed in form, and is rendered useless. The jamming of the disc by its radial expansion is accounted for from the fact that the coefficient of expansion of hard rubber is higher than that of metal, and that a slight elevation of temperature is sufficient
“When the piston is formed of hard rubber, I prefer to construct it with an interior strengthening piece of metal, t, as shown in Figs. 6 and 7, so that it will bo less liable to change its form, or distort.”
Nash’s contrivance was the introduction of a steel-wire ring embedded in the rubber near the periphery of the disc, — relatively like the tire of a wheel, — and after repeated trials this arrangement was found to effectually restrain the radial expansion of thé disc when immersed in “accidental hot water,” and prevent the jamming and the change of form and distortion of the disc, which it was the aim of Nash to overcome. On the proofs there can be no doubt of the novelty and utility of Nash’s piston as applied to meters for the measuring of cold water. Hard rubber, by reason of its being of about the same specific gravity as water, and having a minimum of friction in addition to its other advantages, was conceded to he the best material for a water-meter piston, but it could not be used, as already explained, on account of its liability to soften, expand, and distort under certain conditions, until Nash discovered the means by which these disadvantages could be overcome or neutralized.
The defense of anticipation is not supported by the defendant’s exhibits. Various articles were produced to show that it was not novel, to strengthen articles made of rubber by the introduction of a metal rod or grid; but these articles were either made of metal, and covered with hard rubber for the purpose of ornamentation, or to protect them from oxidation, or such articles as were incased in ordinary India rubber or in soft rubber of various grades of hardness or adulteration.
It is also contended that Nash adopted the wire ring merely for strength, and that he did not contemplate nor foresee what is now claimed for it, namely, that it would prevent radial expansion of the disc. Be this as it may, admitting it to be true that Nash did not realize the full extent of his discovery, — which it would he difficult to believe after reading the specifications of the patent, and in view of the state of the art. — still he would bé entitled to all the necessary and legitimate results attained by his invention, including even such as were unexpected. Wells v. Jacques, 5 O. G. 364, Fed. Cas. No. 17,398; Eames v. Andrews, 122 U. S. 40, 7 Sup. Ct. 1073; Brown v. District of Columbia, 130 U. S. 87, 9 Sup. Ct. 437; Stow v. Chicago, 104 U. S. 457; Gandy v. Belting Co., 143 U. S. 587, 12 Sup. Ct. 598.
Nor is the complainant’s piston only an aggregation of old parts. The metal and the rubber do not act independently, but co-operate in producing a new result, and this constitutes a patentable combina
The validity of the claims being established, infringement of them by the defendant is also placed beyond doubt. The only difference between complainant’s meter and that of the defendant consists in this: that in the place of a wire ring used in the former the defendant uses a thin, broad, flat, and perforated metal plate, which produces the same result. The complainant’s meter uses a thick, annular metal piece, while the defendant uses a broad, thin, annular metal piece, both being split to straddle the radial abutment in the measuring chamber. The substance of complainant’s patented piston is employed, and only its form is slightly changed. As was said in Machine Co. v. Murphy, 97 U. S. 120:
“Authorities concur that the substantial equivalent of a thing, in the sense of the patent law, is the same as the thing itself; so that, if two devices do the same thing in substantially the same way, and accomplish substantially the same result, they are the same, even though they differ in name, form, or shape.”
Hash sought to construct a meter piston of hard rubber that would not easily change its form or distort. Lightness, strength, and durability were the desirable qualities for such a piston, and this combination has been secured by his invention, which is none the less an invention because he may have been unable to explain or describe the principle or theory on which the desired effects have been obtained. It is the resultant product, and not the principle by which it is wrought out, which is patentable. The decree of the circuit court is affirmed.
