109 F. 644 | 3rd Cir. | 1901
The bill charged the defendant below (here the appellant) with infringement of letters patent Ho. 473,544, dated April 26, 1892, and issued to Fred E. Youngs, for an imprbvement in proportional meters for measuring gas. In a proportional meter the fluid whose volume is to be determined is divided into two> streams, — a large and a small one, — intended to bear a definite proportion to each other, so that by measuring the smaller stream in a meter of ordinary and convenient size, called a “tally meter,” the total volume of the fluid drawn from the main is ascertained. Proportional meters were old and well-known appliances prior to the date of the invention of the patent in suit. The learned judge below in his opinion correctly said,* “Youngs was not the first to devise a proportional meter.” Furthermore, it appears from the proofs that the invention of this patent is an improvement only upon commercially successful proportional gas meters which had been, and still are, manufactured by the complainant below under one of two prior patents for proportional meters granted to this same inventor (Youngs), namely, Ho. 412,824 and Ho. 413,121, each dated October 15, 1889. Again, it appears that the complainant, although the owner of the patent in suit, is not manufacturing under it at all, but continues to manufacture and sell proportional meters exclusively under Youngs’ earlier patent. It may, then, be affirmed confidently that the invention of the patent in suit is not one of a primary character. We agree, however, with the circuit court that anticipation of this particular improvement has not been shown, and that the
The specification of the patent in suit states that the invention consists “in the combination of an inclosing case, an upper weighted diaphragm, a valve lever connected to and operated by the dia.pliragm, and the proportional valves which are connected to the lever with a chamber formed in the case, a lower weighted diaphragm, and the valve lever connected thereto and operated by the diaphragm and a tally meter, as will be more fully described hereinafter”; and the declared objects of the invention are “to provide a proportional meter in which the loss of pressure of the gas in passing through the meter is constant, without regard to changes of volume, and to insure accuracy of the proportional measurement, without regard to the friction in the tally meter.” We here refer to Fig. 1 of the patent drawings exhibiting the invention, and we quote from the specification the detailed description of the apparatus:
“A represents the casing of the meter, which can be of any desired shape, size, -or construction which may be preferred; and B, the tally meter, which is connected thereto at the points, O, D. The gas enters at the inlet, E, and fills the entire lower portion of the casing around the chamber, F; and while a portion of this gas passes through the tally meter. B, into the chamber, F. the other portion passes up under- the upper weighted diaphragm, G, and passes through the opening, H, which is formed in the partition, I, the area of which is controlled by the valve, J. The weight placed on the diaphragm, G, is proportioned to the area of the diaphragm, so as to cause the pressure in the chamber, L, to be less than in the one, N, by a certain definite amount. This difference in pressure between the two chambers is regulated by the valve lever, P, which is connected to the weight at one end by the link, O, and to the standard, Q, at the other. To this lever, between the link, O, and the standard, Q, are connected the t wo valve rods, R, to which the valves, ,T, S, are secured, and these valves control the openings, N, T, through the partition, I. I do not limit myself to the precise construction here shown, because this arrangement of parts may be varied indefinitely without departing from the spirit of my invention. The chamber, F, is formed inside of the easing, A, and may either be of the shape here shown, or any other that may be preferred. The greater portion of the bottom of this chamber is formed by the lower weighted diaphragm, U, to which the valve lever, V, is connected. The valve, W. which is secured to this lever, regulates the flow of the gas from the tally meter, B, Into the chamber, F. The pressure of the gas in the chamber, N, against the under side of the weighted diaphragm, U, serves to operate the lever, V, so that the valve, W, will only allow the gas passing from the tally meter to enter the chamber, F, with a certain regulated degree of pressure, and the pressure in this chamber, If, is a certain regulated amount loss than the pressure in the chamber, N, without regard to the volume of the gas passing through the meter. The weights on the diaphragm, G, TJ, are so proportioned that the differences in pressure between the chamber, N, and chamber, L, are always a certain amount greater than the difference in pressure between the chamber, N, and chamber, F. This permits of making the opening, T, in the partition, I, controlled by the valve, larger than it would be made if the fall in pressure were as great from the chamber, F, to the chamber, L, as it is from chamber, N, to the chamber, L.”
The patent has a single claim, which is as follows:
"In a proportional meter, the combination of an inlet chamber, an outlet chamber, a meter-delivery chamber, a tally meter, a weighted diaphragm, U,.*650 placed between tbe inlet chamber and meter-delivery chamber, a valve placed between tbe tally meter and meter-delivery chamber, and operated by the weighted diaphragm, U, in such a manner as to cause a constant fall or difference of pressure between inlet chamber and meter-delivery chamber, a weighted diaphragm, G, placed between the inlet chamber and outlet chamber, a proportional valve, one opening of which is placed between the inlet chamber and outlet chamber, and the other opening placed between the meter-delivery chamber and the outlet chamber, and operated by the weighted diaphragm, G, in such a manner as to cause a constant difference or fall of pressure between the inlet and outlet chambers, and between the meter-delivery and outlet chambers, substantially as described.”
This patent does not cover any of the separate parts of the proportional meter. The claim is for the combination only of the described and specified constituents. One of the parts or elements of this combination is “a weighted diaphragm, G,” whose construction, location, relations, and office are described and shown in the patent. The specification, as we have seen, defining the invention, refers to the diaphragm, G, in the combination thus:
“An upper' weighted diaphragm, a valve lever connected to and operated by the diaphragm, and the proportional valves which are connected to the lever with a chamber formed in the case,” etc.
Not only does Fig. 1 show, but the other figures (2 and 3), exhibiting modifications in mechafaisms, each shows the weighted diaphragm, G, the proportional valve, with its two openings, and interposed mechanism by which the diaphragm and proportional valve are connected. The claim calls for “a weighted diaphragm, G, placed between the inlet chamber and outlet chamber,” and “a proportional valve * * operated by the weighted diaphragm, G. *- * *” It seems to us quite clear from the description, drawings, and claim of this patent that the “weighted diaphragm, G,” is a distinct element of the patented combination, and that by means thereof the “proportional valve,” another separate element of the combination, is operated.
We here refer to the sketch of the defendant’s proportional meter.
Now, the defendant has altogether dispensed with the “weighted diaphragm, G,” and the mechanism connecting it with the proportional valve. He employs a poppet valve, the vertical stem of which carries an upper and lower valve (numbered 9 and 6 in the sketch), the larger one being below. This valve and its connected smaller valve are raised from their seats by pressure from the gas in the inlet chamber acting directly upon the under surface of the lower valve. Instead of operating these valves by means of a weighted diaphragm, or flexible partition having differences of pressure on its opposite sides, and moving as the result' of these differences of pressure, as in the patented apparatus, the defendant, eliminating all intermediate agencies, operates the proportional valve by direct pressure. The defendant’s meter does not have the weighted diaphragm, G, or any diaphragm operating or controlling the proportional valve. Nor has the defendant substituted any mechanical equivalent for the weighted diaphragm, G, performing the same office. The defendant has made a material change in the method employed in operating the .proportional valve, by discarding all intermediate
We are not able to accept the suggestion made by the counsel of the appellee that the change effected by the defendant is merely the consolidation into one piece of a valve and a diaphragm which in the patent are shown as connected pieces, although, if such were the fact, it would not follow that infringement is made out. What the defendant has done is to exclude wholly from Ms meter the diaphragm, G, with its appurtenances. He has not introduced into his meter a compound device, but a single device, whose sole office is that of a valve; and this valve is operated by direct gas pressure exerted upon it. We may here add that it is clear to us that the defendant’s valve could not be used in the meter described in the pat.ent in suit, and covered by the claim, without a complete reorganization of that apparatus. It is equally evident that the diaphragm, G, and its adjuncts could not be employed in the defendant’s meter. Now, noninterchangeability of parts tends strongly to negative infringement. Miller v. Manufacturing Co., 151 U. S. 186, 208,14 Sup. Ct. 310, 38 L. Ed. 121. That the defendant’s meter and the meter of the Youngs patent may effect the same result is not determinative of the question of infringement. Water-Meter Co. v. Desper, supra; Westinghouse v. Brake Co., 170 U. S. 537, 669, 18 Sup. Ct. 707, 42 L. Ed. 1136. In the latter case the court said:
“But. after all, even if the patent for a machine be a pioneer, the alleged infringer must have done something more than reach the same result He must have reached it by substantially the same or similar means, or the rule that tlie function of a machine cannot be patented is of no practical value. * * ® Under the very terms of the first and fourth claims of the Westinghouse patent, the infringing device must not only contain an auxiliary valve, or its mechanical equivalent, but it must contain the elements of the combination ‘siibstantially as set forth.’ In other words, there must not only be an auxiliary valve, but substantially such a one as is described in the patent; i. e. independent of the triple valve.”
The decision in Westinghouse v. Brake Co. confirms our judgment that the court below fell into error in holding that the defendant’s “poppet valve is but the mechanical equivalent of a weighted diaphragm controlling a valve.”