US164394A - Improvement in rock-drills - Google Patents
Improvement in rock-drills Download PDFInfo
- Publication number
- US164394A US164394A US164394DA US164394A US 164394 A US164394 A US 164394A US 164394D A US164394D A US 164394DA US 164394 A US164394 A US 164394A
- Authority
- US
- United States
- Prior art keywords
- piston
- cylinder
- steam
- legs
- drill
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 210000003128 Head Anatomy 0.000 description 24
- 230000000875 corresponding Effects 0.000 description 16
- 210000004907 Glands Anatomy 0.000 description 10
- 239000012530 fluid Substances 0.000 description 8
- 239000000463 material Substances 0.000 description 8
- 230000000694 effects Effects 0.000 description 4
- 239000002184 metal Substances 0.000 description 4
- BVKZGUZCCUSVTD-UHFFFAOYSA-N Carbonic acid Chemical compound OC(O)=O BVKZGUZCCUSVTD-UHFFFAOYSA-N 0.000 description 2
- 241000269774 Lates Species 0.000 description 2
- 210000000214 Mouth Anatomy 0.000 description 2
- 210000000614 Ribs Anatomy 0.000 description 2
- 241000220317 Rosa Species 0.000 description 2
- 240000003670 Sesamum indicum Species 0.000 description 2
- 229940119258 Tucks Drugs 0.000 description 2
- 238000005266 casting Methods 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 238000005553 drilling Methods 0.000 description 2
- 230000036633 rest Effects 0.000 description 2
- 230000000284 resting Effects 0.000 description 2
- 239000011435 rock Substances 0.000 description 2
- 230000035939 shock Effects 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B9/00—Piston machines or pumps characterised by the driving or driven means to or from their working members
- F04B9/14—Pumps characterised by muscle-power operation
Definitions
- Fig. 3 is a cross-section. The upper part of this figure is a section on the line w x in Fig. 2. The lower part is a section on the line y y in the same figure.
- Fig. 4 is a section Fig. 5 is a section through Fig. 6 is a side elevation, showing the entire machine.
- Fig. 7 is an end view, showing the upper end of the cylinder, with its provisions for confining the nuts on the through-bolts.
- piston-rod b extends out through a peculiar stuffing-box, which is equipped with elastic material, adapted to serve as a spring in case the piston should tend'to move too far in either direction.
- the piston is much longer relatively to its diameter than pistons are usually made, and in my experiments has been operated without any packing.
- the steam is admitted through a passage, a, into the annular chamber Bt, which forms a belt around the center of the length ofthe piston, and is always maintainedv full of steam at the full boiler-pressure, or at such lower pressure as may be caused by a partial closing of a throttle-valve. (Not represented.)
- the piston is at exactly midstroke the steam is not allowed to low into or out of the cylinder at all, but in Vworking' the piston never restsin this position for a moment. It is flung violently past the central point, and by its own motion admits, cuts oil', and exhausts the steam.
- the weight ofthe piston and its connections holds it at the lower end of the cylinder.
- the valve should be suddenly opened, admitting the steam at as full pressure as may be. It fills the annular chamber Bt, and in this position of the piston also flows around through a port or channel, al, and gets below the piston. There being in this position ot' the parts no pressure above the piston, it is thrown up with all the force that the steam can exert on the lower end.
- the passage a may terminate in the cylinder in a plain round hole, the belt B* being always sufficiently capacious to allow a free opening for the steam.
- the mouths of the several ports al a2 a3 a, should be extended partially around the cylinder, to allow ample opening for a very active movement of the elastic fluid as the piston is in the act of coverin g or uncovering the passages.
- the piston and the connected drill require to be turned about the sixteenth of' a revolution after each stroke.
- the rod C is forged on, or otherwise rigidly y fixed to, a stout disk, C', the plane under face of which matches steam-tight against a corresponding plane annular surface, A5, at or near the cylinder end.
- the twisted rod C and head or disk C' are kept in a central position by means of the extension c, which is in the center of the upper face of the disk, and rests in a corresponding hole in the upper head A1 of the cylinder.
- a little space between the disk C' and the adjacent surface of the head A1 is kept always filled with steam of the same pressure as that which fills the belt B*.
- the twisted rod C' is, consequently, held stationary during the upstroke of the piston, and it compels the piston to turn about a sixteenth of a revolution. At each reciprocation of the piston, therefore, it is revolved to about the proper amount required to effect the most successful drilling.
- 'lhe seat of the disk C' may be conical, instead of plane, if preferred.
- the ⁇ piston B tends to move too far down, it strikes the gland P P', and, forcing it downward, compresses the packing N.
- the collar B' which may be the plane upper end of a stout chuck which contines the. drill, strikes the lower gland Q Q', and, forcing it upward aga-inst the packing N, compresses it in the same manner as before.
- the elastic material N serves as a spring to gently arrest the motion of the piston when it tends to move too far in either direction, and the strain, modified and softened by the intervention of the elastic packing or cushion N, is received entirely on the lower head A2, forcing it either upward or downward.
- the lower head A2 is confined by long bolts E E, which lie in grooves extending along in each of the wings or longitudinal guides A4. They take a firm hold of the latter near their upper end. They exert a great compressive force, which the material of the guides A4 is able to resist.
- the bolts E receive the strain, and transmit it to the fiange at the upper end of the cylinder, and the compressive strain is received directly endwise on the guides A".
- Recesses F corresponding in form to nuts e, are formed in the proper positions in the upper head Al, and on applying the latter the nuts e are firmly locked until the head A1 is again removed. It will be understood that the head A1 is secured by bolts, (not represented,) which extend to a sufficient depth into the material of the cylinder A to take a firm hold thereof. The pistou never strikes the upper head A1, because the cushion N at the lower end receives the blow in both directions.
- a feed-screw, H mounted in a cross-piece properly secured to the cradle G, is tapped through a lug, A3, formed on the cylinder A, as represented, and allows the latter to be moved forward and backward by turning the feed-screw H, which may be done by hand or by machinery as the work proceeds.
- the tripod-legs IJ J are supported and adjusted by means of a peculiarly-formed bolt, K, which extends through the cradle G.
- a peculiarly-formed bolt, K which extends through the cradle G.
- On the bolt K are two square places, 7c, one of each of which is received in a corresponding square hole in each of the legs J.
- the third leg I is mounted on a cylindrical portion of the bolt K, and may be adjusted in any required position when the nuts L on the ends of the bolt K are loosened. So, also, the bolt K and the legs J J may be turned in any required position when the nuts are loosened; but the two legs J J cannot be turned independently of each other, by reason of the fact that they are both rigidly set on square portions of the bolt K.
- the inner faces of the legs J J are made conical, and each tits in a corresponding conical recess in the cradle G.
- the T-piece or cross-piece at the head or upper end of the leg I is furnished with conical ends, which fit into corresponding recesses in the inner faces of the cradle G. After loosening either or both the nuts L the leg I may be set at any required angle to the legs J, and the entire cradle G and its contents may be inclined in any required position, according to the direction of the hole to be drilled.
- the Whole is rigidly set in that position, and on admitting the elastic fluid, through the passage a, from a strong hose or other conduit, (not represented,) the piston and its attached drill commences to reciprocate rapidly in the proper line, and the attendant, by turning the feed-screw H, drives forward the entire cylinder and its contents, as he finds that the hole is excavated.
- My device fulfills all I the conditions, and makes the line of direction ofthe drill and the position ot' the back leg and of the front pair of legs adjustable within every possible limit, by the slacking of a nut on either end of the single bolt K.
- rlhe channeled guides A4 serving as reenforcing ribs on the cylinder and as guides for the cylinder, in combination with the longitudinal bolts E, as herein specified.
- the head A1 In combination with the bolts E, extending from the lower end and taking hold of the iiange of the cylinder, the head A1, formed with recesses adapted to take hold oi' and conne the nuts e on said bolts, as herein specitied.
Description
2 Sheets--SheetL G. H. REYNOLDS;
, Rock-Drill.
N0, 164,394. 'Patented1unel5,l875.
ZSheetS--SheetZy G. hu.- REYNoLus.
uckmrin.
Patented June15, 1875.
on the line Z Z1. the metal in the different plane Z Z2.
UNITED STATES PATENT OFFICE.
GEORGE H. REYNOLDS, OF NEW YORK, N. Y., ASSIGNOR TO HIMSELF, OOR- NELIUS H. DELAMATER, AND GEORGE H.. ROBINSON, OF SAME PLACE.
IMPROVEMENT IN ROCK-DRILLS.
Specification forming part of Letters Patent No. 164,394, dated June l5, 1875; application filed April 5, 1875.
To all whom it may concern:
Be it known that I, GEORGE H. REYNOLDS, of New York city, in the State of New York, have invented certain Improvements relating to Rock-Drills, of which the following is a specification:
The following is a description ot what I consider the best means of carrying out the invention.
- and Fig. 2 is a central longitudinal section through the cylinder and its immediate adjnncts. Fig. 3 is a cross-section. The upper part of this figure is a section on the line w x in Fig. 2. The lower part is a section on the line y y in the same figure. Fig. 4 is a section Fig. 5 is a section through Fig. 6 is a side elevation, showing the entire machine. Fig. 7 is an end view, showing the upper end of the cylinder, with its provisions for confining the nuts on the through-bolts.
Similar letters of reference indicate like parts in all the figures.
I will indicate the main casting, which forms the cylinder, by the single letterA, distinguishing certain parts thereof by additional marks -A, al, &c., when necessary. B is a piston,
formed with a deep annular recess around its center, as indicated by Bt. rIhe piston-rod b extends out through a peculiar stuffing-box, which is equipped with elastic material, adapted to serve as a spring in case the piston should tend'to move too far in either direction.
The piston is much longer relatively to its diameter than pistons are usually made, and in my experiments has been operated without any packing. The steam is admitted through a passage, a, into the annular chamber Bt, which forms a belt around the center of the length ofthe piston, and is always maintainedv full of steam at the full boiler-pressure, or at such lower pressure as may be caused by a partial closing of a throttle-valve. (Not represented.) When the piston is at exactly midstroke the steam is not allowed to low into or out of the cylinder at all, but in Vworking' the piston never restsin this position for a moment. It is flung violently past the central point, and by its own motion admits, cuts oil', and exhausts the steam.
In starting, the weight ofthe piston and its connections holds it at the lower end of the cylinder. To start the machine, the valve should be suddenly opened, admitting the steam at as full pressure as may be. It fills the annular chamber Bt, and in this position of the piston also flows around through a port or channel, al, and gets below the piston. There being in this position ot' the parts no pressure above the piston, it is thrown up with all the force that the steam can exert on the lower end. It accumulates a high velocity in its upward motion, and then, having covered or closed the port al, it uncovers and opens the port a2, admitting the live steam from the belt Bt, to act on the upper end of the piston, arresting its motion, and at the same time uncovering the port a3, and allowing the steam from the lower end to exhaust through it. Under these conditions the upward motion of the piston is rapidly checked, and it immediately descends as rapidly as it previously rose. The descending motion again accumu-` lates a sufficient momentum to carry it very forcibly onward, land then closes the upper stea-m-passage a2, uncovers the upper'exhaustpassage a4, and admits steam again to the lower end of the cylinder' through the port al.
Although I use the word steam with reference to the uid used, it will be understood that it may be compressed air or any other suitable elastic fluid, means being employed to compress the air or evolve carbonic acid orother elastic iiuid for the purpose.
This arrangement of the parts renders available some of the expansive action ofthe steam or other fluid. The working is ordinarily very rapid, amounting under usual conditions to as high as ten or more double strokes per second. When the piston has commenced to rise, and has by its movement eut off the further access of steam to the lower end through the port al, the steam already there will act er@ pansively un'til a subsequent period, when the rod C is not held rigidly, but is turned parexhaust-port a3 is uncovered, and for a little period afterward, until the steam is exhausted. The same conditions occur on the down-stroke. It will be understood that the piston should be fitted as nearly steam-tight as is practicable, and that the recess or hollow belt B* shouldbe made With smooth and accuratelyformed boundaries.
The passage a may terminate in the cylinder in a plain round hole, the belt B* being always sufficiently capacious to allow a free opening for the steam. The mouths of the several ports al a2 a3 a, should be extended partially around the cylinder, to allow ample opening for a very active movement of the elastic fluid as the piston is in the act of coverin g or uncovering the passages.
The piston and the connected drill require to be turned about the sixteenth of' a revolution after each stroke. I have devised means otherwise secured in the upper end ofthe piston, and thus plays up and down upon it. The rod C is forged on, or otherwise rigidly y fixed to, a stout disk, C', the plane under face of which matches steam-tight against a corresponding plane annular surface, A5, at or near the cylinder end. The twisted rod C and head or disk C' are kept in a central position by means of the extension c, which is in the center of the upper face of the disk, and rests in a corresponding hole in the upper head A1 of the cylinder. A little space between the disk C' and the adjacent surface of the head A1 is kept always filled with steam of the same pressure as that which fills the belt B*. There is a free communication with the belt B* by a passage, a6, cored in the castcom'pressor, is felt in the space above the disk C', which is always filled with steam equal to that in the belt B*, and, consequently, equal to the maximum pressure which alternately acts in the two ends of the cylinder. During the down-stroke of the piston the conditions are very different. During this movement, or the entire first part thereof,
the steam is pressing with full working pressure on the under face of the disk C', and thus balances the pressure thereof. In this condition, when the disk is thusI relieved from pressure, it is veasily turned. Consequently,
during each descent of the piston, the twisted exhausted space below it, and the disk is, by
the pressure above it, held rigidly on its seat A5. The twisted rod C' is, consequently, held stationary during the upstroke of the piston, and it compels the piston to turn about a sixteenth of a revolution. At each reciprocation of the piston, therefore, it is revolved to about the proper amount required to effect the most successful drilling. 'lhe seat of the disk C' may be conical, instead of plane, if preferred.
The absence of any pawls or analogous mechanism to effect this rotation is important, not only in reducing the cost and weight of the apparatus, but also by allowing the drill to be turned freely by hand or otherwise when the action of the piston is stopped.
The construction ofthe stuffing-box audits appurtenances may be briefly described as follows: A gland, P, lits loosely around the piston-rodp, and extends a little distance into the cylinder. Against its flanged or larger end P' is applied a deep body of packing, N, of a character which is adapted to serve both as a packing to make the piston-rod steam-tight, and as a spring to soften the shock in case the piston moves too far. I have in my experiments used what is known as Tucks patent packing. A corresponding gland, QQ', applies on the outer side of the stuffing-box, with its end Q projecting outward beyond the confining-follower R. When the `piston B tends to move too far down, it strikes the gland P P', and, forcing it downward, compresses the packing N. When the piston tends to move too high, the collar B', which may be the plane upper end of a stout chuck which contines the. drill, strikes the lower gland Q Q', and, forcing it upward aga-inst the packing N, compresses it in the same manner as before. 'Ihus the elastic material N serves as a spring to gently arrest the motion of the piston when it tends to move too far in either direction, and the strain, modified and softened by the intervention of the elastic packing or cushion N, is received entirely on the lower head A2, forcing it either upward or downward.
The lower head A2 is confined by long bolts E E, which lie in grooves extending along in each of the wings or longitudinal guides A4. They take a firm hold of the latter near their upper end. They exert a great compressive force, which the material of the guides A4 is able to resist. When the piston strikes the gland P P, and thus forces the lower head A2 downward, the bolts E receive the strain, and transmit it to the fiange at the upper end of the cylinder, and the compressive strain is received directly endwise on the guides A".
These guides, besides thus bearing the compressive strain of the bolts E at ordinary periods, contribute to increase the tensile strength of the cylinder when a rendin g strain is received from the impact of the piston against the cushion at the bottom of the cylinder. They also fulfill their ordinary function of guiding the cylinder as it is fed up and down in the adjustable frame or cradle G.
Recesses F, corresponding in form to nuts e, are formed in the proper positions in the upper head Al, and on applying the latter the nuts e are firmly locked until the head A1 is again removed. It will be understood that the head A1 is secured by bolts, (not represented,) which extend to a sufficient depth into the material of the cylinder A to take a firm hold thereof. The pistou never strikes the upper head A1, because the cushion N at the lower end receives the blow in both directions.
r[he metal of the cylinder A, adjacent to the bolts E, is properly finished to form guides or slides. These glide in corresponding slides formed in the cradle G, which latter is made in halves, secured together by a bolt, g. A feed-screw, H, mounted in a cross-piece properly secured to the cradle G, is tapped through a lug, A3, formed on the cylinder A, as represented, and allows the latter to be moved forward and backward by turning the feed-screw H, which may be done by hand or by machinery as the work proceeds.
The tripod-legs IJ J are supported and adjusted by means of a peculiarly-formed bolt, K, which extends through the cradle G. On the bolt K are two square places, 7c, one of each of which is received in a corresponding square hole in each of the legs J. The third leg I is mounted on a cylindrical portion of the bolt K, and may be adjusted in any required position when the nuts L on the ends of the bolt K are loosened. So, also, the bolt K and the legs J J may be turned in any required position when the nuts are loosened; but the two legs J J cannot be turned independently of each other, by reason of the fact that they are both rigidly set on square portions of the bolt K. The inner faces of the legs J J are made conical, and each tits in a corresponding conical recess in the cradle G. The T-piece or cross-piece at the head or upper end of the leg I is furnished with conical ends, which fit into corresponding recesses in the inner faces of the cradle G. After loosening either or both the nuts L the leg I may be set at any required angle to the legs J, and the entire cradle G and its contents may be inclined in any required position, according to the direction of the hole to be drilled. Then, by tightening the nut or nuts L, the Whole is rigidly set in that position, and on admitting the elastic fluid, through the passage a, from a strong hose or other conduit, (not represented,) the piston and its attached drill commences to reciprocate rapidly in the proper line, and the attendant, by turning the feed-screw H, drives forward the entire cylinder and its contents, as he finds that the hole is excavated.
All previous devices known to me for adjusting the angle of the drill in relation to the legs, or the position of the legs with regard to each other or to the drill, require the loosening and tightening of two or more separate bolts.
In practice, the changes required are very frequent-almost constant.
It is essential that two of the legs be, by some means, firmly connected together, as it is found not safe to loosen all three ofthe legs and set the whole entirely at liberty.
My device fulfills all I the conditions, and makes the line of direction ofthe drill and the position ot' the back leg and of the front pair of legs adjustable within every possible limit, by the slacking of a nut on either end of the single bolt K.
A large proportion of the work is done in tunnels and narrow cuts, where the drill is liable to operate with one side very close to a solid wall ot' rock, so it is of advantage to be able to liberate from either side.
It will be understood that when the drill is in use massive weights should be mounted upon the legs [J J, and that all the usual accessories may be employed.
I claim as my improvement in rock-drillsl. The disk C', resting on the seat a5 and supporting the twisted rod (J, in combination with the reciprocating piston and drill, and with a passage, a, leading from the exterior of the disk C to a space having a constant pressure of steam, as herein specilied. 4
2. rlhe channeled guides A4, serving as reenforcing ribs on the cylinder and as guides for the cylinder, in combination with the longitudinal bolts E, as herein specified.
3. In combination with the bolts E, extending from the lower end and taking hold of the iiange of the cylinder, the head A1, formed with recesses adapted to take hold oi' and conne the nuts e on said bolts, as herein specitied.
In testimony whereof VI have hereunto set my hand this 30th day of March, 1875, in the presence or" two subscribing witnesses.
GEO. Il. REYNOLDS.
Witnesses:
WM. C. DEY, M. A. VAN NAMEE.
Publications (1)
Publication Number | Publication Date |
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US164394A true US164394A (en) | 1875-06-15 |
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US164394D Expired - Lifetime US164394A (en) | Improvement in rock-drills |
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- US US164394D patent/US164394A/en not_active Expired - Lifetime
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