US600934A - Apparatus for operating rock-drills - Google Patents

Description

(N M a 1.)

8 s. A. SEWALL & A.'J. BENNWITZ.

APPARATUS FOR GPERATING ROCK DRILLS. 'No. 600,934.

TORNEYI I VENTOHS STEPHEN A.-SEWALL.

AUF: CLALBEZNNWJTZ.

od vmsumsmn Patented Mar. 22, 1898 WITNESSES,

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STEPHEN A. SEWALL AND AUREL J. BENNl/VITZ, OF DENVER, COLORADO.

APPARATUS FOR OPERATING ROCK-DRIL LS.

SPECIFICATION forming part of Letters Patent N 0. 600,934, dated March'22, 1898.

Application filed March 29 1897.

To aZZ whom it may concern.-

Be it known that we, STEPHEN A. SEWALL and AUREL J. BENNWITZ, citizens of the United States of America, residing at Denver, in the county of Arapahoe and State of Colorado, have invented certain new and useful Improvements in Methods of and Apparatus for Operating Rock-Drills; and we do declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same, reference being had to the accompanying drawings, and to the figures of reference marked thereon, which form a part of this specification.

Our invention relates to an improved apparatus for operating rock-drills.

Our improved apparatus consists in the employment of the direct explosion in a cylinder of any hydrocarbon or other combustible gas mixed with atmospheric air or a proper proportion of oxygen. The apparatus will now be described in detail, reference being made to the accompanying drawings, in which is illustrated an embodiment thereof.

In the drawings, Figure 1 is a top or plan View of the apparatus, partly in horizontal section. Fig. 2 is a side view, partly in section and partly in elevation. The sectional portion is taken partly on the line w m and partly on the line y y, Fig. 1. Figs. 3 and 4 show details of construction.

Similar reference characters indicating corresponding parts in the views, let the numeral 5 designate the drill base or carriage, which may be mounted on a suitable stationary support and controlled by any suitable feed mechanism. On this base is mounted a double cylinder 6, the two chambers being separated by a partition 6 and provided with a water-jacket. In each cylinder is located a piston '7. The rods or stems 7 of these pistons are connected wit-h a common cross-head 8, carrying the drill-hammer 9, centrally located. J ournaled in suitable bearings attached to the bottom or under surface of the base 5 is a shaft 10, surrounded by a coilspring 12, one extremity of which is attached to the base, while the other extremity is secured to the shaft 10, which is flattened on two opposite sides to receive the forked lower extremity of an operating-arm 13, whose up- Serial No; 629,812. (No model.)

I per extremity is connected with the cross-head tion is to impart the return or backward movement to the cross-head and pistons, which movement is accomplished by the recoil of the spring.

On the base 5 are mounted uprights 14, having rearward projections 14", in which is j ournaled a shaft 15. To the central portion of this shaft is loosely connected the upper extremity of an arm 16, whose lower extremity is connected with one end of a link 17, whose opposite or forward extremity is connected with a depending projection 8 of the 'crosshead 8.

Fast on the shaft 15 and located adjacent the upper extremity of the arm 16 is a ratchetcollar 18, which is engaged by a dog 19, mounted on the arm 16, and held in operative relation with the ratchet-collar by means of a spring 20, one extremity of which is attached to the arm, While the other extremity engages the dog. Fast on the shaft 15 and located, respectively, on opposite sides of the arm 16 are two collars 21, each having three projections 21*. These two collars 2 1 are relatively so arranged that their projections 21 are staggered or located out of line with each other. Their function is to operate'the mechanism connected with the valves 22, controlling the exhaust-ports of the respective cylinders. To the stem 22 of each valve 22 is connected the lower extremity of a link 23, whose upper extremity is connected with one arm of a bell-crank lever 24, fulcrumed at 25 on a standard 26, mounted on the cylinder. To the other arm of the lever 24 is connected one extremity of a rod 27, which passes through an aperture in a guide-arm 28. The opposite extremity of the rod 27 carries a depending projection 29, which lies in the path of the projections 21 of the collar 21. Each rod 27 is provided with a stop 30, which engages one extremity of a coil-spring 31, whose opposite extremity bears against the arm 28, which is secured to the cylinder casing. Each cylinder is provided with a check-valve 32, controlling an inlet-port in one end thereof. The two cylinders communicate, by way of these ports, with a common chamber 33, in which gas and air are mixed. The stems 32 of the valves 32 protrude through apertures in the chamber-casing. Each stem has a stop 32 at its outer extremity which engages one extremity of a coil-spring 34, whose opposite extremity bears against the chamher-casing.

Located between the two valve-stems 32 is a tube 35 for the admission of gas and air to the mixing-chamber. This tube is provided with a port 36, connected with a gasolene-reservoir or other suitable source of gassupply. This port communicates with a small tube 37, projecting into the opening of the tube 35 and having a small outlet for the gas. This outlet is controlled by a valve 38, whose stems project beyond the tube to permit adj ustment. The top of the tube 35 is provided with a neck 35 for the admission of air. In this neck is located a valve 39, controlled by a screw 40, engaging a threaded aperture in the valve. This screw is swiveled in the top of the neck, and by turning it the valve is vertically adjusted to control or regulate the admission of air.

The operation of the mechanism will now be described.

To start the machine, the cross-head and pistons must be moved forward, thus creating a partial vacuum in the piston-chambers. In response to this vacuum the check-valves 22 open and allow the explosive mixture in the chamber 33 to enter the cylinder-chambers. The forward movement of the cross head gives the shaft 10 a partial turn by virtue of the arm 13, which connects the shaft and cross-head. As soon as the cross-head and piston have reached the forward limit of their stroke the recoil of the spring 12 imparts the return movement and one of the pistons compresses the explosive mixture in its cylinder extremity, while the charge escapes from the other cylinder by way of the exhaust-port, which is opened in time to produce this result, as hereinafter explained. As the cross-head moves forward the upper extremity of the arm 16 turns on the shaft 15 and moves the dog 19 forward one tooth on the ratchet-collar by virtue of the link 17, which connects the arm 16 with the cross-head. The collars 21 are so arranged on the shaft 15 that the exhaust-valves are alternately opened. Hence when the pistons make their return movement a projection 21 on one of the collars 21 engages a corresponding depending arm 29 and opens the valve 22, controlling the exhaust-port of one cylinder. This movement is effected through the instrumentality of the rod 27, the bell-crank lever 24, and the link 23. Hence when this exhaust-port is opened the explosive mixture in the corresponding cylinder is allowed to escape without an explosion. On the contrary, the other collar 21 does not engage its corresponding arm 29, and consequently the exhaust-valve of the other cylinder remains closed, and the explosive tool or bit.

mixture is compressed sufficiently to cause an explosion through the agency of the ignition-tube 41, communicating with that cylinder. The respective ignition-tubes are heated in the ordinary or any suitable manner. This explosion, acting on one piston, drives the cross-head and both pistons forward again, actuating the arm 16 and the dog 19 as before, thus placing the spring 12 again under tension. As the recoil of the spring imparts the return movement to the cross-head and its connections the collars 21 are again actuated, but this time the exhaust-valve of the other cylinder, or that in which the explosion occurred, is opened to allow the products of combustion to escape, while the exhaustvalve of the other cylinder remains closed. Hence this time the explosion occurs in the last-named cylinder and the mechanism is actuated as before, the result being that the explosion occurs alternately in the two cylinders, every return of the two pistons being followed by an explosion in one chamber and accompanied by an exhaust from the other chamber. Hence the hammer 9 as it moves forward strikes a sudden and powerful blow on the chuck 42, which carries the drilling This tool is inserted in a suitable socket 42 and locked in place by a screw 43. The head 42 of the chuck has a ratchet-face, which is engaged by a spring-held dog 44, mounted on a suitable support 45. As the chuck is driven forward by the hammer blow the nose of the dog is lowered through the movement imparted by the spring 46, which causes the dog to turn on its pivot or fulcrum. This movement of the dog causes the latter to engage another tooth of the ratchet-head, and as the chuck is moved backward by the spring 47 the chuck and drill are given the necessary partial rotary movement between strokes. The spring 47 is located between the chuck-head and a block 48, mounted on the base 5.

While we have shown the mechanism in connection with a hammer-drill, it must be understood that the chuck carrying the drillbit may be mounted directly on the crosshead. Hence the invention may be employed for operating any suitable drill mechanism.

Having thus described our invention, what we claim is- 1. In a drill the combination of acylinder, a piston located therein, a suitable drillingtool actuated by the piston, means for rotating the tool, means for admitting a suitable explosive to the cylinder, and suitable means for returning the piston after each forward stroke.

2. In a drill-operating apparatus, the combination of two cylinders, pistons located therein, a common cross-head with which the pistons are connected, a hammer carried by the cross-head, a drilling-tool actuated by the hammer, suitable means for the admission of the explosive to the cylinder, and suitable means for controlling the exhaust-ports of ICC the two cylinders whereby the explosions occur alternatelyin the cylinders, one piston be- 'hausting the cylinders, a

ing acted on by an explosion after each return or backward movement of the cross-head.

3. In a drill-operating apparatus, the combination of two cylinders, pistons located therein, a common cross-head with which the pistons are connected, a hammer carried by the cross-head, a drilling-tool actuated by the hammer, means for the admission of the explosive mixture to the cylinders, an exhaustvalve for each cylinder, means for controlling; the exhaust-valves to cause the explosions to occur alternately in the two cylinders, and suitable means for returning the cross-head and pistons after each forward stroke.

4. A drill comprising two cylinders, pistons located therein, a common cross-head with which the pistons are connected, a hammer carried by the cross-head, a drilling-tool actuated by the hammer, means for the admission of an explosive mixture to the cylinders, means connected with each cylinder for i guiting the explosive mixture, means for alternately exhausting the cylinders, and suitable spring mechanism for returning the crosshead and pistons after each forward stroke.

5. A drill comprising two cylinders, pistons located therein, a common cross-head with which the pistons are connected, said crosshead carrying a hammer adapted to act on the drill-chuck, means for the admission of an explosive mixture to the cylinders, means attached to each cylinder for igniting the explosive mixture, means for alternately exsuitable mechanism for returning the cross-head and pistons after each forward stroke, comprising a shaft, a coil-spring surrounding the same, and a suitable connection between the cross-head and shaft whereby the spring is placed under tension by each forward movement of the crosshead.

6. A drill comprising two cylinders, pistons located therein, a common cross-head with which the pistons are connected, a hammer carried by the cross-head, means for the admission of an explosive mixture to the cylinders, means connected with each cylinder for igniting the explosive mixture, valves for controlling the exhaust-ports of the two cylinders, two collars suitably mounted and having projections relatively staggered, suitable means connected with the cross-head for turning the collars as the cross-head moves backward, and suitable means actuated by the collars for alternately operating the exhaustvalves of the two cylinders.

7. A drill comprising two cylinders, pistons located therein, a common cross-head with which the pistons are connected, a hammer or chuck carried by the cross-head, means for the admission of an explosive mixture to the cylinders, valves for controlling the exhaustports of the cylinders, a shaft suitably journaled, two collars 21 fast thereon and having relatively staggered projections, a ratchet- -drillbit or tool,

collar also fast on the shaft, an arm. loosely connected with the shaft, a dog mounted thereon and engaging the ratchet-collar,a link connecting said arm with the cross-head, and suitable means operated by the collars 21 for alternately operating the exhaust-valves of the two cylinders.

8. A drill comprising two cylinders, pistons locatedtherein, a common cross-head with which the pistons are connected, means connected with the cross-head for operating the means for the admission of an explosive mixture to the cylinders, Valves for controlling the exhaust-ports of the two cylinders, a shaft suitably mounted in proximity to the cylinders, two collars 21 fast thereon and having projections relatively staggered, a ratchet-collar also fast on the shaft, an arm loosely connected with the shaft, a dog mounted thereon and engaging, the ratchet-collar, a link connecting said arm with the cross-head, and suitable means for operating the exhaust-valve of each cylinder, comprising a bell-crank lever, a link connecting one arm of the lever with the exhaustvalve, and a spring-held rod connected with the other arm of the lever and having projections lying in the path of the projections on the corresponding collar 21.

9. The combination with a suitable base or frame, and suitable drill-operating mechanism mounted thereon, of mounted on the base or frame and adapted to carry the drilling tool or bit and suitable means for rotating the said chuck.

10. The combination with a suitable base, and suitable drill-operating mechanism, of a chuck mounted on a suitable support attached to the base, and a suitable spring connected with the chuck for imparting a limited return movement after each blow delivered by the operating mechanism and suitable means for rotating the chuck.

11. The combination with a suitable base and drilloperating mechanism mounted thereon and carrying a hammer, of a chuck mounted on the base and carrying the drillbit, a spring for imparting a limited return movement after each blow of the hammer, and a spring-actuated dog engaginga ratchetface formed on the chuck and adapted to impart the rotary movement to the drill-bit.

12. In a drill-operating mechanism, the

the chuck movably combination of a cylinder, a piston located therein, a cross-head with which the piston is connected, a hammer carried by the crosshead, means for admitting the explosive mixture to the cylinder, and suitable means for returning the cross-head and piston after each I forward stroke.

In testimony whereof we affix our signatures in presence of two witnesses.

STEPHEN A. SEWALL. AUREL J. BENNWITZ.

Witnesses:

ALFRED J. OBRIEN, EDITH HIMSVVORTH.

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