US518178A - John b - Google Patents

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US518178A
US518178A US518178DA US518178A US 518178 A US518178 A US 518178A US 518178D A US518178D A US 518178DA US 518178 A US518178 A US 518178A
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arms
combustion chamber
pusher
piston
rock shafts
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02PIGNITION, OTHER THAN COMPRESSION IGNITION, FOR INTERNAL-COMBUSTION ENGINES; TESTING OF IGNITION TIMING IN COMPRESSION-IGNITION ENGINES
    • F02P15/00Electric spark ignition having characteristics not provided for in, or of interest apart from, groups F02P1/00 - F02P13/00 and combined with layout of ignition circuits
    • F02P15/04Electric spark ignition having characteristics not provided for in, or of interest apart from, groups F02P1/00 - F02P13/00 and combined with layout of ignition circuits one of the spark electrodes being mounted on the engine working piston

Definitions

  • This invention has reference to gas engines in which an explosive charge to operate the piston is ignited by means of an electric spark.
  • the invention has in view the production of a simple and durable mechanism for interrupting an electric circuit to produce the spark.
  • Figure l is an end elevation of my improved gas engine, with the head of the combustion chamber removed;
  • Fig. 2 a longitudinal section of a portion of the engine, taken in the line 2 of Fig. l; and
  • Fig. 3 a detail of a tension device hereinafter described.
  • a piston, B in the cylinder, adapted to be moved back and forth,-and which is connected with the crank of the engine.
  • a combustion chamber, 0, in the head of the cylinder extending through the interior of the cylinder.
  • This combustion chamber is of course intended to be provided with a cap or cover to inclose it and confine the explosive power of the gas, so that it will operate against the piston.
  • Ipass twosleeves,Eand E through the walls of the combustion'chamber, and preferably at right angles toieach other, as shown in the drawingsalthough this is a matter of construction that need not be rigidly adhered to.
  • the sleeves are insulated from the walls of the combustion chamber, as represented in the drawings, although, if preferred, but one of such sleeves need be insulated when the pusher is insulated from the piston, as shown. Otherwise, they should both be insulated from the walls of the combustion chamber.
  • I'arrange metallic rock shafts, F and F in the sleeves, and mount on their inner ends rigid metallic arms, G and G. In their normal positions, the free ends of these arms lap each other, but with a space between them, so that they do not contact.
  • the inner one of the arms is intended to be in position to be contacted by the point or end of the pusher as it moves into the combustion chamber, and to be carried by it back against the outer arm, so as to rub or scrape against its free end.
  • This rubbing or scraping action will serve to keep the arms clean at their point of juncture, so as to always insure a complete and perfect contact.
  • rigid arms H and H whose free ends are provided with holes surrounding a pin or bolt, h, which is insulated from the arm.
  • This bolt is provided with a coiled spring, I, which is also preferably insulated from the arm and bolt.
  • the attachment of the Wire to the frame or wall of the combustion chamber will equally serve to include such shaft and its arm in the circuit.
  • the piston advances, it moves the point or end of the pusher into the combustion chamber and against the inner of the rigid arms arranged therein. As it moves such arm back, it brings itinto contact with the other of the rigid arms, and thus completes the circuit.
  • combustion chamber is intended to be charged with gas or vapor preparatory to each explosion.
  • a gas engine the combination of a cylinder, a piston movable back and forth therein, a pusher connected to and moving with the piston, a combustion chamber into which the point of the pusher moves, rock shafts passing through the walls of the combustion chamber, inner rigid arms mounted on the inner ends of the rock shafts with their free ends lapping and adapted to contact as the pusher moves one of the arms, means for restoring the rigid arms to their normal position as the pusher retreats, and an electric circuit which in cludes the inn er rigid arms as parts, substantially as described.
  • a gas engine the combination of a cylinder, a piston movable back and forth therein, a pusher connected to and moving with the piston, a combustion chamber into which the point of the pusher moves, rock shafts passing through the Walls of the combustion chamber, inner rigid arms mounted on the inner ends of the rock shafts with their free ends lapping and adapted to contact as the pusher moves one of the arms, arms on the outer ends of the rock shafts, springs exerting their tension on such arms for restoring them, the rock shafts and the inner arms to their normal position as the pusher retreats, and an electric circuit which includes the inner rigid arms as parts, substantially as described.

Description

(No Model.) k
J. B RSE.
. GASE Patented Apr. 10, 1894;
Mums.
5 NATIONAL umuurama COMPANY wanumerm. l1. 0.
UNITED STAT S PATENT OFFICE.
JOHN B. CARSE, OF CHICAGO, ILLINOIS, ASSIGNOR TOTHOMAS KANE, OF
SAME PLACE.
GAS-ENGINE.
SPECIFICATION forming part of Letters Patent No. 518,178, dated April lo, 1894. Application filed April 26, 1893. Serialllo- 471,939. (No model.) I
To all whom it may concern.-
Be it known that I, JOHN B. OARsE, a citizen of the United States, residing at Chicago, Illinois, have invented certain new and useful Improvements in Gas-Engines, of which the following is a specification.
This invention has reference to gas engines in which an explosive charge to operate the piston is ignited by means of an electric spark.
The invention has in view the production of a simple and durable mechanism for interrupting an electric circuit to produce the spark.
To this end it consists in the combination of pivoted spring supported electrodes, arranged to act one upon the other and operated from the reciprocating piston, either directly or through the intermediate pushing device.
In the accompanying drawings, I have represented the construction which I prefer to employ in practice, the piston being provided with an insulated finger or pusher, which is projected by the movement of the piston into the combustlon chamber, in order to act upon one of the electrodes and push it against the other. 1
In the drawings, Figure l is an end elevation of my improved gas engine, with the head of the combustion chamber removed; Fig. 2 a longitudinal section of a portion of the engine, taken in the line 2 of Fig. l; and Fig. 3 a detail of a tension device hereinafter described.
In making myimproved gas engine, I make a cylinder, A, which may be of the desired size and of the ordinary construction, and which is provided with a cylinder head, A, as usual. I arrange a piston, B, in the cylinder, adapted to be moved back and forth,-and which is connected with the crank of the engine. I arrange a combustion chamber, 0, in the head of the cylinder, extending through the interior of the cylinder. This combustion chamber is of course intended to be provided with a cap or cover to inclose it and confine the explosive power of the gas, so that it will operate against the piston. I provide the piston with a pusher, D, which is preferably insulated from it, as shown, and which has its point or end advanced by the forward movement of the piston into the combustion chamber. Ipass twosleeves,Eand E, through the walls of the combustion'chamber, and preferably at right angles toieach other, as shown in the drawingsalthough this is a matter of construction that need not be rigidly adhered to. The sleeves are insulated from the walls of the combustion chamber, as represented in the drawings, although, if preferred, but one of such sleeves need be insulated when the pusher is insulated from the piston, as shown. Otherwise, they should both be insulated from the walls of the combustion chamber. I'arrange metallic rock shafts, F and F, in the sleeves, and mount on their inner ends rigid metallic arms, G and G. In their normal positions, the free ends of these arms lap each other, but with a space between them, so that they do not contact. The inner one of the arms is intended to be in position to be contacted by the point or end of the pusher as it moves into the combustion chamber, and to be carried by it back against the outer arm, so as to rub or scrape against its free end. This rubbing or scraping action will serve to keep the arms clean at their point of juncture, so as to always insure a complete and perfect contact. Iarrange on the outer ends of the rock shafts rigid arms H and H, whose free ends are provided with holes surrounding a pin or bolt, h, which is insulated from the arm. This bolt is provided with a coiled spring, I, which is also preferably insulated from the arm and bolt. As the rock shafts are turned or rotated by the pusher bearing against the inner rigid arms, the outer arms bear against the tension of the spring, so that as the pusher retreats, the springs will restore the rock shafts and their arms to their normal or working position.
It is obvious that instead of a coiled spring, as shown, weights or other kinds of springs might be employed to restore the rock shafts and their connected parts to their position for work; and I do not therefore desire to limit myself strictly to these particular details, except as they may be mentioned in the claims.
I arrange a battery, K, in suitable position, one pole of which is connected by the wire, is, to the rock shaft, F, and the other pole of which is connected by the wire, is, to the rock shaft, F, so as to include the rock shafts and their arms in the circuit. Where one of the rock shafts is not insulated from the Wall of the combustion chamber, the attachment of the Wire to the frame or wall of the combustion chamber will equally serve to include such shaft and its arm in the circuit. As the piston advances, it moves the point or end of the pusher into the combustion chamber and against the inner of the rigid arms arranged therein. As it moves such arm back, it brings itinto contact with the other of the rigid arms, and thus completes the circuit.
It will of course be understood that the combustion chamber is intended to be charged with gas or vapor preparatory to each explosion.
What I regard as new, and desire to secure by Letters Patent, is-
1. In a gas engine, the combination of a cylinder, a piston movable back and forth therein, a pusher connected to and moving with the piston, a combustion chamber into which the point of the pusher moves, rock shafts passing through the walls of the combustion chamber, inner rigid arms mounted on the inner ends of the rock shafts with their free ends lapping and adapted to contact as the pusher moves one of the arms, means for restoring the rigid arms to their normal position as the pusher retreats, and an electric circuit which in cludes the inn er rigid arms as parts, substantially as described.
2. In a gas engine, the combination of a cylinder, a piston movable back and forth therein, a pusher connected to and moving with the piston, a combustion chamber into which the point of the pusher moves, rock shafts passing through the Walls of the combustion chamber, inner rigid arms mounted on the inner ends of the rock shafts with their free ends lapping and adapted to contact as the pusher moves one of the arms, arms on the outer ends of the rock shafts, springs exerting their tension on such arms for restoring them, the rock shafts and the inner arms to their normal position as the pusher retreats, and an electric circuit which includes the inner rigid arms as parts, substantially as described.
JOHN B. GARSE. lrVitnesses:
THOMAS F. SHERIDEN, SAMUEL C. HIBBEN.
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