Shaw Electric Crane Co. v. Shriver

86 F. 466 | 2d Cir. | 1898

PER CURIAM.

The record is a most voluminous one, covering 1,700 printed pages. Six experts of unquestioned ability have been examined, three on a side. The briefs are able, ingenious, and exhaustive; and yet, when the record has been read, the briefs studied, and the testimony of the experts analyzed, it is apparent: that the question presented is, after all, a single one, which may be answered without any extended discussion. Indeed, it seems unnecessary to add anything to the brief opinion of the court in the district of New Jersey.

The claims in question are:

“(1) In combination with a supporting track, a bridge mounted and movable thereon, a trolley or car mounted and movable upon the bridge, a hoisting drum or pulley carried by the trolley, and three independent electric motors, each in communication with a source of electricity, one of said motors being carried by and serving to propel Hie bridge, and the other two being carried by the trolley, and serving, respectively, to propel the trolley, and to actuate the drum or pulley."’
“(3) In a traveling crane, the combination of a bridge, an electric motor carried by and serving to propel the same, a trolley mounted ujion the bridge, and an electric motor carried by the trolley, wholly independent of the first, and serving to propel the trolley over the bridge.”

An overhead traveling crane is one where there is a movable traveling bridge, a traveling carriage or trolley on the bridge, and a hoist on Hie trolley, having its various movements actuated by power. The moving bridge imparts, to the body to be acted upon, motion forward or backward; the trolley imparts motion to one side or the other; and the hoist imparts motion up or down. It is manifest that, by the combination of these motions, every conceivable path within range of the crane’s capacity may be given to the body sought to be moved. The more harmoniously these three movements are combined, the more quickly one or other of them may be changed, the more variety there may be in the speed of one or all of them, the more efficient will be the crane. Flexibility and smoothness of operation are important elements in such a combination. Overhead traveling cranes, driven by steam power and by hydraulic power, existed before the patentee began to experiment, and in these the three lines of motion were combined, under direction of the operator, to give to the weight moved such a path as he might select. It is conceded that the patent cannot be sustained upon the theory that Shaw substituted electric power instead of steam or hydraulic power in such machines; nor is there any contention *468that he devised some new and useful variety of electric motor. The entire invention claimed for Shaw is thus stated:

“Shaw’s invention consists essentially, not only in the utilization of independent electric motors, as the moving power for the several traveling parts of his crane, but also in the adaptation of the motors and the crane each to the other by the location of one motor for moving the bridge directly upon the bridge itself, and the location of another motor for moving the trolley directly upon the trolley itself.”

The prior art shows traveling cranes operated by steam power, in which the three motions are imparted by three independent engines, — one for each motion, — so arranged that each engine can act as its own brake, and all can be worked at once if desirable. The prior art shows cranes in which these three independent motors were located upon the trolley, and other cranes in which they were located upon the bridge; and, of course, when so placed, a more or less complicated arrangement of clutches, pinions, and gearings was required to transmit th.e power of the independent motor to the place where it was to act. This was a drawback, but was apparently deemed by the inventors of those earlier cranes less ¿of a drawback than it would have been to furnish each independent motor with its independent boiler, or to supply steam from the single boiler through flexible pipes to motors whose position relative to that boiler was constantly changing. With electric motors, however, it is not essential to locate the motor so near to the source of power, and at a fixed distance from it. On the contrary, the motor may be placed in any position, and the power sent to it over a wire. It was the teaching of the electric art to attach the motor to the driven mechanism much more directly than other kinds of motor, and that, by reason of such direct application, much intermediate shafting and gearing could be dispensed with. It would seem that, given the three independent steam motors, and given the suggestion that electric motors be used to do the work, the locating of each directly on the part it was to move would suggest itself to those familiar with the art. We concur, therefore, with the conclusion expressed in Crane Co. v. Worthington, supra, that:

“The differences between the cranes of Force and Newton and the crane of the patent in suit are simply such as would naturally he made in changing the motive power, and whatever of superiority over previously'used traveling cranes is to be found in the crane of the patent is due altogether to the recognized advantages inherent in the electric motor.”

The decree of the circuit court is affirmed, with costs.