US853508A - Pneumatic hammer. - Google Patents

Description

`- *"PATENTED MAY 14, 1907.

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or increase or decrease in the pressure of the UNITED STATES PATENT OFFICE. i

PNEUMATIC HAMMER.

Specicaton of Letters Patent.

Patented May 14, 1907.

Application tiled April 14, 1906. Serial No'. 311,752.

To all whom, it 71mg/ concern,.-

Be it known that I, JOSEPH FREDERICK, a citizen ofl the United States, residing at Stroudsburg, in the county of Monroe and State of Pennsylvania, have invented a new and useful Pneumatic Hammer, ofwhich the following is a specification.

This invention relates to neumatic hammers, drills and similar too s, wherein a reciprocatory piston is provided with ports that coact with ports in the cylinder for the purpose of admitting and exhausting air or other fluid under pressure to both ends of the cylinder.

The principal object of the invention is to provide a device of this kind which shall be of simple construction, and-in which the piston or plunger may be formed 4of a single piece of metal provided with suitable ports and of such construction as to permit ready rotation in either direction, if necessary, thus avoiding the use of auxiliary guides and separate valve members.

^ A further object of the invention is to provide a tool of this character that may be taken apart by an unskilled workman, and in which it is practically impossible to replace any part in wrong position.

A still further and important object of the invention is to provide a tool in which the Aexhaust may be controlled by the workman, and the action of the tool regulated in accordance with the work to be performed.

A still further object of the invention is to provide a tool of this type in which the strength of the blow may be adjusted without any change in the position of the valve moving fluid.

I'Vith these and other objects in view, as will more fully hereinafter a pear, the invention consists in certain nove features of construction and arrangement of parts, hereinafter fully described, illustrated in the accompanying drawings, and particularly pointed out in. the appended claims, it bein understood that various changes in the orm, proportions, size and minor details of the structure may be made without departing from the spirit or sacrificing any of the advantages o the invention.

In the accompanying drawings z-Figure 1 is a sectional elevation of a pneumatic tool constructed in accordance with the invention, the piston being shown in position for admitting air for the working stroke. Fig. 2

,while the tool is working.

is a similar view of a portion of the same durmg the posltlon where air 1s admitted to the outer end of the cylinder for the return stroke. Fig. Bis a detail perspective view of 6o the piston, detached. Fig. 4 is a detail sectional view on the line 4 4 of Fig. 1, showchisel o r other member pressed inward for the purpose of shortening the stroke of the piston.

Similar numerals` of reference are employed to indicate corresponding throughout the several figures of the drawings.

CThe cylinder 1() forms the body of the tool, and is provided with a suitable handle 11, which is held in one hand by the operator, The outer end of the cylinder has a threaded connection with a socket member 12in which the shank or tang of the cutting or other tool is inserted, and a locking screw 13 is used to iirmly hold the vparts together.

At a point adjacent to the handle is an air inlet port 14 which may be connected by a fiexible tube to a source of pressuresupply, such, for instance, a steam boiler or compressed air reservoir7 and this port is under the control of a spring closed valve 15, working in a suitable chamber 16, the valve haviirg a reduced stem that extends through a gland nut 18, and is provided with a finger loop 19 which is grasped and held by the workman, the valve being held out against the stress of its closing spring 21. When the loop is released, the valve instantly moves to closed position.

In order to obtain a full supply of air, the air inlet channels 22 which communicate with the valve controlled port are arranged on both sides of the cylinder, and from these channels lead ports 23 and 24 which serve, respectively, to admit air to the inner and outer ends of the cylinder. At a point between these two sets of inlet ports is arranged a series of exhaust ports 25, of which there may be any desired number, these ports being preferably in the form of small perforations anyone or more of which may be covered by the thumb or finger of the operator, so that the exhaust may be retarded, and the action of the tool correspondingly regulated, or this parts:7o

IOO

IIO

port may be in the form of a long narrow slit, i

a portion of which may be covered, and in the larger tools a separate slidable valve may be employed for the purpose, as shown, for instance, in Fig. 6.

Arranged within the cylinder is a cylindrical piston 26, and at one end or" the cylinder is a reduced stem 27 which extends into the tool socket and strikes against the shank of the tool at each working stroke. The piston is provided with two peripheral grooves 2S and 29, extending completely around the piston, so that the latter is free to rotate, if necessary, but will always present the grooves in alinement with the inlet ports as the piston reciprocates. i

Extending from the inner end of the cylinder through to the groove 28 are ports 30 of which there may be any desired number, all of the ports communicatingl with said groove 2S, and extendingI i'rom the opposite end of the cylinder to the groove 29 are similar ports 3,1.

The socket piece 12 is bored out to a diameter greater than that of the stem 27, and litting within the socket is a bushing or collar 33 that is provided with an elongated slot or notch 34 into which extends one end of a screw 35 which limits the movement of the bushing. This bushing is normally held out beyond the end of the socket by a helical compression spring 36.

The shank of the chisel or other tool :l: isv

placed within the bushing, and its inner end projects somewhat beyond the inner end of said bushing in position to be struck by the stem 27.

In operation, the piston being in the position shown in Fig. 2, and the valve being opened for the purpose of allowing air to enter the channels 22, the air will pass through the ports 23 to groove 2S, and thence through the ports 30 of the piston to the inner end of the cylinder, forcing the piston outward, so that the stem 27 will strike against the shank oi' the tool an. As the groove 2S passes the exhaust pertoratioi'is 24, the air will escape from the inner end ot the cylinder, and the volume and speed oi' such exhaust is under the control of the operator, and by covering one or more of such perforations, may retard the exhaust to any desired extent, and by covering those adjacent to the inner end oi the cylinder, will prevent the passage of the air until the full stroke has heen accomplished, or by covering those nearest the outer end of the cylinder, the exhaust may occur sooner in the stroke, but a greater or less volume may be obtained for cushioning purposes. Vhen the piston reaches the position shown in Fig. 1, the groove 29 will he opened to the port 24, and air will pass from the outer end oi the cylinder, thus returning the piston to the position showm in Fig. 1, and the exhaust of the return stroke may, also, be controlled by the operator. During the return movement, as

the piston groove 28 passes the inlet ports 23, a quantity of air will ilow into the inner end or" the cylinder and actas a cushion, so that the movement will be checked and the piston will move back quickly for the second stroke. The bushing 33 permits considerable range of adjustment of the force of the blow of the piston. Should a very light blow be desired, the operator forces the chisel or other tool against the work to such an extent that the spring 36 is compressed, the bushing being Forced back to the position shown in Fig. 5. This will limit the out stroke of the piston to such an extent that the lower groove 29 will no t lre allowed to come into alinement with the inlet port 24, the piston being in such case thrown back by the rebound. lnasmuch as the force of theblow depends to a considerable extent on the momentum of the piston, and as the momentum increases in proportion to the length of the stroke, it'l'ollows that where the stroke is short, the blow .will be much lighter than Where a long stroke isobtained. This adjustment, thereiore, permits the opera-tor to secure a blow of any desired force.

Fig. 6 illustrates a slight modification of the invention, wherein a valve 40 is employed to cover the exhaust ports. This is intended principally for use on large tools Where the exhaust could not be readily controlled by the thumb or linger of the operator.

In order to add to the effectiveness of the tool, the piston is provided With a small annular groove 42 whichconnects on one Side with the groove 28 through a port 44, and on the opposite side with the groove 29 through a port 45. These twqpgrts are so comparativelysmall, being preferably about onethirty-second of an inch in diameter in a tool of ordinary size, and serve to permit the passage oi small quant-ities of air from oneend of the cylinder to the other for cushioning purpose, and at the same time act in connection with the groove 42 as advance exhaust ports. Y

I cl aim z- 1. A pneumatic tool including a cylinder having a piston controlled exhaust port in its wall, said port being extended in the length ot the cylinder, and a piston working within the cylinder and controlling said exhaust port, the el'ective area of the port being variable to controlthe period and volume of the exhaust from the rear of the piston to eiiect corresponding variation in the length and force of the working stroke.

2. In a pneumatic tool, a cylinder having in its wall an exhaust port that is extended in the direction of the length of the cylinder, a tool socket arranged at one end of the cylinder, a tool receiving bushing within a socket, a spring tending to thrust the bushing outward, and a piston arranged within the cylinder and controlling the exhaust therefrom IlO at the completion of the working stroke, the strength of the piston blow and the degree of exhaust being controlled by the pressure exerted in holding the tool against the Work.

3. In a pneumatic tool, a cylinder having an exhaust port in its wall, said exhaust port being extended in the direction of the length of the cylinder, a tool socket arranged at one end of the cylinder, a longitudinally movable l bushing disposed Within the socket and adapted for the reception of a tool, a spring tending to force the bushing outward, and a piston arranged Within the cylinder and controlling the exhaust port, said piston being provided with a reduced forward end for engaging the shank of the tool,

A4. In a pneumatic tool, a ported cylinder, and a single piece piston provided with a pair of circumferential grooves forming ports that are movable into alinement with the cylinder ports, channels or ports leading from the ends of the piston to such grooves, and minor ports for placing the grooves in communication with each other.

5. In a pneumatic tool, a piston provided with inlet and exhaust ports, and a single piece piston having circumferential grooves forming orts that are movable into alinement wit the inlet and exhaust ports, there being a plurality of orts or channels extending from each end o the piston to the nearest circumferential groove, and minor ports for placing the grooves in communication with each other.

6. In a pneumatic tool, a cylinder having inlet and exhaust ports, and a piston provided With a small port or' passage placing the opposite ends of the cylinder in communication with each other.

7. In a pneumatic tool, a cylinder having inlet and exhaust ports, a piston having three annular grooves, ports leading from one of the end grooves to the adjacent end of the piston, a port leading from the opposite end groove to the opposite end of the piston, and small ports connecting the end grooves to said central groove.

In testimony that I claim the foregoing as my own, I have hereto affixed my signature in the presence of tWo Witnesses.

JOSEPH FREDERICK.

Witnesses:

JACOB Y. SIGAFUs, WILLIAM A. SHAFER.

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