US1470838A - holmes - Google Patents

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US1470838A
US1470838A US1470838DA US1470838A US 1470838 A US1470838 A US 1470838A US 1470838D A US1470838D A US 1470838DA US 1470838 A US1470838 A US 1470838A
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secured
bit
shaft
auger
arm
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    • EFIXED CONSTRUCTIONS
    • E21EARTH DRILLING; MINING
    • E21BEARTH DRILLING, e.g. DEEP DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B19/00Handling rods, casings, tubes or the like outside the borehole, e.g. in the derrick; Apparatus for feeding the rods or cables
    • E21B19/08Apparatus for feeding the rods or cables; Apparatus for increasing or decreasing the pressure on the drilling tool; Apparatus for counterbalancing the weight of the rods
    • E21B19/087Apparatus for feeding the rods or cables; Apparatus for increasing or decreasing the pressure on the drilling tool; Apparatus for counterbalancing the weight of the rods by means of a swinging arm

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  • This invention is intended for use in boring holes into the earth for the purpose of applying explosive charges below the surface of the earth in agricultural, horticultural and geological work.
  • An object of this invention is to provide a boring machine by means of which the operator may conveniently, rapidly and with great ease, bore holes in the ground perpendicularly, or otherwise at numerous exact locations. as occasion may require or make expedient. and to do this with minimum interference by the irregularities of the surface, where the borings are to be made.
  • Another object is to provide a power machine of this character, which is easily transportable over rough and hilly ground, and by means of. which the boring operation may be rapidly proceeded with and performed at different places. and at different angles without requiring any time for leveling up the machine or for adjusting its parts to the difi-erent angles of the earth surface.
  • the size of the hole required to be bored is usually about 1%, inches, more or less, and it has been found very expensive and laborious to produce the holes as required in the art. Said holes should be bored to the depth of from .2 to 6 feet, and hereto- 1919. Serial No. 296,636.
  • my invention which comprises a port able frame having a central axis and two pivotal wheels thereon, a motor on said frame, a rotary bit or anger adapted to bore a hole of the required diameter into the earth, means to rotate the auger, means under the control of the operator to adjust the auger and said auger-rotating means to a desired angularity with the frame, and means for transmitting power from the motor to the auger-rotating means in its various angular adjustments.
  • the invention may be carried out in various ways, and an object is to provide a cheap, simple and adjustable power anger that is easily manufactured, and is easy to transport and to operate.
  • Figure l. is a sectional elevation of the apparatus .on line 11 Fig. 4, showing the principal part of the device in side elevation: and also showing by dotted lines altered positions of various parts.
  • Fig. 2 is a section through a hard-pan subsoil, showing a hole drilled by the apparatus, and also indicating by a dotted line the area of the pulverizing efi'ect of a powder explosion in the bottom of the hole.
  • Fig. 3 is an illustration of the results accomplished by breaking up the hard-pan subsoil; and also the results of not doing so.
  • Fig. i is a sectional elevation on line w, Figs. 1 and 6, showing a rear view of the apparatus.
  • Fig. 5 is a sectional elevation on line 2:, Fig. 6, with the parts enlarged and with parts broken away.
  • Fig. 6 is a plan view of the apparatus with the upper part of the counterbalance support shown in section.
  • Fig. 7 is a section through apor'tion of the auger-supporting arm with. parts enlarged and parts broken away.
  • Fig. 8 is another view of the portion of the auger-supporting arm, shown in Fig. 7, with the ends reversed and with the clamp tor the arm in side elevation;
  • Fig. 9 is a side elevation of the apparatus provided with a propelling attachment by which means the apparatus travels from place to place under its own power. For the sake of clearness parts are omitted and parts broken away.
  • Fig. 10 is a modification of the apparatus illustrated in Figs. 1 to 9, inclusive; the view hereshown being a sectional; elevation simi lar to Fig. 1, with parts omitted and parts broken away. and altered positions of the parts being shown by dotted lines.
  • Fig. 11 is another modification of the apparatus which is shown in plan, with parts broken away.
  • Fig. '12 is a side elevation of the apparatus shown in Fig. 11.
  • Fig. 13 is a sectional elevation of the apparatus, with many parts omitted for the sake of clearnes's.
  • my invention comprises a bed plate 1 secured to a bent axle 2 by an elongated clip 3, which is secured around the axle 2 and to the bed plate bybolts 4, and the ends of the axle 2 are supported by wheels 5 and 6.
  • leg 7 To and under the bed plate land near its rear end is secured a leg 7 and. by means of this leg and the wheel support the bed plate 1 is maintained in a level position except when the leg is elevated from the ground for the purpose of transporting the device from place to place.
  • the heaviest portion of the engine is p0- sitioned between the wheels 5 and 6 and the foot 7, and the other mechanism is distributed so that a slight overbalance of weight is between the foot piece 7' and the wheel support. This slight unbalanoing of the weight is for the purpose of maintaining the equilibrium of the apparatus when at rest; and also for the purpose of easily lifting the foot piece 7 from the ground when the apparatus is to be transported from place to place.
  • the handle l2 whichserves as means for raising the foot piece 7 from the ground and also for pulling or pushing the apparatus from place to place.
  • a means is provided, however, whereby the apparatus can travel from place to place under its own power-instead of being moved by hand as above indicated.
  • a straight shaft 22 is substituted for the bent axle 2 and secured to the bed plate 1" by any suitable means, and wheels 23, of less diameter than the wheels 5 and 6, are substituted for the latter.
  • a clutch mechanism 24 is interposed between the pulley 16 and the engine shaft 18, and a toggle wheel 25 mounted in a yoke 27 on a pin 28 is substit-uted for the foot piece '7.
  • the yoke 27 On. the upper end of the yoke 27 is an extension 29, which passes through the bed plate 1 and has secured on the upper end thereof the inner end of the handle 12, which serves as means for turning the toggle wheel so as to guide the apparatus when it is moved from place to place.
  • the engine 10' may be of any construction suitable for such purpose as herein indi cated and, if it is of the internal combustion type, can be supplied with fuel from the tank 10 by the'pipe' 10.
  • crank shaft 18 of the engine 10 is mounted. in i'lpward extensions 30 on the beams S and 9, and has on one end thereof mounted, fixed and loose pulleys 31 an'd32', respectively. On its other end the shaft 18 is supplied with a removable crank lever 33, by which the engine is cranked'for starting; and on this shaft are also mountedflywheels S 1.
  • a means is provided for shifting the belt 39 from the fixed tothe loose pulleys.
  • a rod 40 passes through the arms 35aind' has s'e cured thereto one end of a shifting lever 4511.
  • the lever 11 is fulcrumed around the brace rod 42, which has one end thereof secured to the beam 9, and its other end secured to an upright hollow post 43, the purpose: of which is explained hereinafter.
  • the lever 41 is fulcrumed on the brace 42 by means of the rod 41, which has its ends secured to the lever 41 and is bent outward around the brace rod 4-2, so that, when the lever 41 is moved in either direction, it contacts with the rod 42 and thereby forms a fulcrum point.
  • brace 46 To the upper end of the post 43 is secured one end of an extension 45, near the other end of which is secured one end of a brace 46, the other end of said brace 46 being secured to the hollow post 43.
  • the hollow post 43 is preferably formed of a channel iron 47 and an angle iron 48, which irons overlap each other, as seen in' Fig. 6, and are secured together by any well known means.
  • Upon the channel iron 47 are outwardly extending lugs 49, secured to the bed plate 1 by screws 50.
  • a counterbalance 51 attached to one end of a cable 52, which passes over sleeve pulleys 53 and 54', respectively, and is at its other end secured to a ring 55 on an arm 56.
  • the sleeve pulleys 53 and 54 are mounted on pins 57 and 58, respectively, at opposite ends of the extension 45, the purpose of the counterbalance 51 and its connection with the arm 56 being explained hereinafter.
  • On the arm 56 is riveted one end of a side brace 56, the other end of which is mounted on the outer end of the shaft 36.
  • the arm 56 which is preferably formed of a pipe, has one end pivotally connected with the shaft 36, and to its other end is secured an extension 57, formed of a pipe 58, which. has therein a brass-jacketed wooden rod 59 for the purpose of reinforcing the outer end of the arm 56 as seen in Figs. 7 and 8, the pipe 56 and the reinforcing rod 59 telescope, and a band 60 provided with flanges 61 which are secured together by a bolt 62, 8813 88 to clamp the pipe to the reinforcing r0 (3n the outer end of the extension 57 is mounted a shaft 63 having its bearing in a bushing 64 secured in the flattened end of the pipe 58 in a bracket 65.
  • the bracket 65 and another bracket 66 are secured to a rectangular band 67 by the bolts 68, the bracket 66being spaced away from one side of the band 67 by a washer 69 and a block 7 0, shown in Fig. 5, and the shaft 63 having thereon and near one end thereof mounted a pulley 71 and the end of the shaft. being journaled in a bearing 72 se cured in the band 67.
  • the pulley 71 is connected by a belt 73 with a pulley 74, secured to the jack shaft 36.
  • a bevel pinion 7 5 which meshes with a gear 76, having on its underside a hub extension 77, journaled in the bracket 66, being in its center provided with a square opening 78 for receiving therein the square shank 79 of a drill bit 80.
  • the square end of the shank 79 abuts a stop 81, and in the square end is inserted a cotter pin 81 in order to prevent the bit from dropping through the opening 78 when the bit 80 is being withdrawn from the ground after the drilling of a hole 82, shown in cross section in Fig. 2, with the bit or auger 8O removed, and with a powder charge 124 in the bottom thereof.
  • handles 83 Attached on each end ofthe rectangular frame 67 are handles 83, which the operator holds in order to shift the bit80 to pro or drilling position, and on which he app ies his weight when the device is in operation and the bit is driven into the ground for drilling a hole.
  • the handles 83 also serve the purpose of assisting the counterbalance 51 in lifting the bit from the ground after the hole 82 has been drilled, while the counterbalance and its cable and sleeve pulley connection with the arm 56 are for the purpose of holding the arm 56 and, consequently, the bit 80 in elevated position when the bit is not in use.
  • a brace 84 has one end thereof secured to the frame 67 and its other end bent inwardly and secured to the pipe 58 by rivets 85; and a bolt 86 passes through the extension 57 and the brace84 so as to form a substantial, rigid connection between these parts.
  • the end 87 of the brace 84 forms a stop for the flanges 88 and 89 of the band 60, there being spaces 90 and 91, respectively, between the end 87 and the flanges 88 and 89 in order to allow a considerable rotational, oscillation orplay of the extension 57 and its associated parts on the produced axis of the arm and extension for the purpose of giving the anger or hit 80 side movements. relative to a vertical plane drawn centrally and longitudinally through the machine, so as to permit the bit 80 to be driven obliquely into the ground.
  • the bit 80 has a swinging movement toward and away from the end of the machine onaccount of the pivotal connection of the rectangular frame 67 and its associated parts with the shaft 63.
  • the rectangular frame 67 will turn on the shaft 63, and the pinion 76 will change its position on the gear 75 so as to allow the bit 80 to be swung toward or away from the machine.
  • the rod 56 and all of its associated parts can be moved toward or away from a vertical line central through the engine shaft.
  • the rod 56 has one end thereof pivotally connected with the shaft 36, and since, as previously stated, the shaft 36 is mounted in the upper ends of the arms 35, and the arms 35 have their other ends pivotally mounted, it is clear that the upper ends of said arms can be moved in the arc of a circle.
  • theiauger or bit can be moved downward in a perpendicular line, as indicated in 1 by the dotted linepositions of thevarious parts.
  • the bit 80 can be moved from a perpendicular position so as to enable the operator to place the point of the hit upon the bed pl'ate'l, as at 97, when the drilling; apparatus is idle and when it is to be novcd to another place.
  • the fixed pulleys3-1 and 37. and the-loose pulleys 32 and 38 are mounted on the. respective shafts'98 and '36; and the shaft 98 has thereon a pulley 101: connected with a pulley 1020B the engine shaft '18 by a belt 103 in order to drive the shafts 98-and 36, which in their turn drive the bit 80 by means connected therewith, as hereinbeforc described.
  • the spring support for the arms 35 is dispensed with, asthe arms automatically return to a perpendicularposition by gravity after having been moved out of such position for the purpose of holding the bit 80 per-penthoularly during the drilling operation.
  • lugs 10-1 and: 105 are shown as having pivotally mounted therein a gear boxing 106 and as being secured to the bed plate 1 by screws 107.
  • the boxing is also shown as secured to the bed plate 1 bya. thumb bolt 108.
  • Mounted in a bearing 109 is a shaft 110, on one endof which a pulley 111, connected with a pulley 112 on the engine shaft 18 by a belt 113.
  • a bevel gear 114 On. the other end of the shaft 110 is a bevel gear 114, which meshes with a pinion l15.having therein a square opening 116, through which extends the square end 79 of the bit 80.
  • a handle 117 On the upper end of the bit 80 is pivotally mounted a handle 117, which the operator holds, and on which he bears his weight when the apparatus is in operation and the bit 80-is driven into the ground.
  • the square end 79 of the bit 80 is of considerable length and, by pressure of the operators weight, is forced downward through the pinion 115, as the hole is drilled.
  • cut-away portion in the bed plate 1 forms a recess 118. through which the bit 80 passes, the recess being open on one side so that, when the thumb bolt 103 is loosened, the boxing 106. can be. turned over on its hearings in the lugs 104i and 105, and thereby enable the operator to place the bit 80 in a horizontal instead. of. a verticalv position when the apparatus is to be t flJISPOIYtCtl. from place to place.
  • praoticethe apparatus In praoticethe apparatus is transported either manually or under its own power to the place of operation, such place usiiia-lly being orchard; land in which, as a rule arranged in rows, the points for drilling the holes for the-purpose. of blasting have been determinednand indicated. after which the apparatus is; positioned to follow the rows from pointto point.
  • Vllith the apparatus positionedover one of these determined points, the operator graspsthe handles; 83 and moves the point Of-tlle, bit 80 to a line perpendicular to the determined point. Then. assuming that the engine isiin operation, he moves the lever 41 so as to shift the belt 39 from the loose to the fixed pulleys. thereby rotating the bit 80, which thus begins drilling a hole in the ground at the point indicated.
  • the operator causes the bit 80 to drill very rapidly throughthe hardpan subsoil. and to form a hole 82 suitable for. orchard-blastingz purposes.
  • top soil 119 as quite shallow and underlaid with a solid hard-pan 120, through which the roots of trees or vegetation are unable to penetrate.
  • the roots of the tree 121 having contacted with the hard-pan 120 and being unable to penetrate it, have turned back into the top soil, the impoverished condition of which, together with its lack of moisture, causes the body of the tree to be dwarfed and spindlin
  • the tree 122 illustrates one, which is planted in a place where the hard-pan has been pulverized by blasting so as to allow the roots to penetrate to the rich,moist subsoil 123, which is almost invariably found below a stratum of hard-pan, thus, owing to the trees vigorous root growth, the growth of the tree above the ground is correspondingly vigorous.
  • the operator loosens the bolt 62 through the flanges 61 of the band 60, and is thereafter, by means of the handles 83,-able to move the extension 57 to a position in the arm 56 adapted to produce the desired tension, after the attainment of which he again tightens the bolt 62.
  • I claim- 1 In an adjustable power auger, a portable frame, an engine on said frame; a holeforming apparatus operatively connected with said engine and said frame; an auger having its shank end pivotally connected with said apparatus; a counterbalance flexibly connected with said shank end for normally opposing the downward movement of said auger; and manual means pivotally connected with said shank end for moving the auger downwardly.
  • a portable frame pivotally mounted on said frame, an auger pivotally mounted at its shank end on said arm, means for swinging said arm so as to move said auger into drlllmg posltion, a motor on said frame,
  • a portable frame pivotally mounted on said frame, an extension on said arm, an auger having its shank end pivotally mounted on.
  • a power auger comprising a frame; a
  • a frame a motor on said frame, an arm pivotally mounted on said frame, an extension on said arm, a rotationally oscillating connection between said arm and said extension whereby said extension may be oscillated on the produced axis of said arm and extension, an auger pivotally mounted on said extension, and a driving connection between said motor and said auger.

Description

L. HOLMES ADJUSTABLE 70m EARTH AUG Filed In 12 1919 5 Shuts-Sheet l v Oct. 16, 1923.
L. HOLMES ADJUSTABLE rowan EARTH AUGER 5 Sheets-Sheet 3 Filed- May 12 1919 Inaeru or llaw'rerzoe J/olrneui w///////////////////////////////fi Oct. 16 1923.
'L, HOLMES ADJUSTABLE. rowan mam mesa Filed lay 12', 5 Sheets-Sheet Oct. 16, 1923.-
Inventor Lawrence fifolnwc Patented Oct. 16, 1923.
UNITED STATES PATENT OFFICE.
LAWRENCE HOLMES, DE LOS ANGELES, CALIFORNIA.
ADJUSTABLE rowan EARTH AUGER.
Application filed May 12,
To all whom it may concern:
Be it known that I, LAwnENor. HOLMES, a citizen of the United States, residing at Los Angeles, in the county of Los rnpaeles and State of California, have invented a new and useful Adjustable Power Earth Auger, of which the following is a specification.
This invention is intended for use in boring holes into the earth for the purpose of applying explosive charges below the surface of the earth in agricultural, horticultural and geological work.
The process of fitting the earth for plant growth by blasting, is coming. more and more into vogue, and is subject to great inconvenience and is greatly retarded by reason of the difficulty in locating the explosive charge at the proper place below the surface of the ground.
It is found that by blasting a pocket in the earth at the place where a tree is to be planted. saiditree will talre root and thrive more lustily than when such blasting is not employed, and also that it is possible by such blasting process to produce thriving orchards on ground which otherwise would be impractical for such purposes. This is particularly true in. ground having hardpan near the surface or in shaly or rocky ground.
An object of this invention is to provide a boring machine by means of which the operator may conveniently, rapidly and with great ease, bore holes in the ground perpendicularly, or otherwise at numerous exact locations. as occasion may require or make expedient. and to do this with minimum interference by the irregularities of the surface, where the borings are to be made.
Another object is to provide a power machine of this character, which is easily transportable over rough and hilly ground, and by means of. which the boring operation may be rapidly proceeded with and performed at different places. and at different angles without requiring any time for leveling up the machine or for adjusting its parts to the difi-erent angles of the earth surface.
The size of the hole required to be bored is usually about 1%, inches, more or less, and it has been found very expensive and laborious to produce the holes as required in the art. Said holes should be bored to the depth of from .2 to 6 feet, and hereto- 1919. Serial No. 296,636.
fore the cost of boring such holes has been the greatest expense in connection with this form of industry.
I have avoided this great expense and labor by my invention, which comprises a port able frame having a central axis and two pivotal wheels thereon, a motor on said frame, a rotary bit or anger adapted to bore a hole of the required diameter into the earth, means to rotate the auger, means under the control of the operator to adjust the auger and said auger-rotating means to a desired angularity with the frame, and means for transmitting power from the motor to the auger-rotating means in its various angular adjustments.
The invention may be carried out in various ways, and an object is to provide a cheap, simple and adjustable power anger that is easily manufactured, and is easy to transport and to operate.
Other objects, advantages and features of my invention may appear from the accompanying drawings, the subjoined detailed description and the appended claims.
The drawings illustrate the invention.
Figure l. is a sectional elevation of the apparatus .on line 11 Fig. 4, showing the principal part of the device in side elevation: and also showing by dotted lines altered positions of various parts.
Fig. 2 is a section through a hard-pan subsoil, showing a hole drilled by the apparatus, and also indicating by a dotted line the area of the pulverizing efi'ect of a powder explosion in the bottom of the hole.
Fig. 3 is an illustration of the results accomplished by breaking up the hard-pan subsoil; and also the results of not doing so.
Fig. i is a sectional elevation on line w, Figs. 1 and 6, showing a rear view of the apparatus.
Fig. 5 is a sectional elevation on line 2:, Fig. 6, with the parts enlarged and with parts broken away.
Fig. 6 is a plan view of the apparatus with the upper part of the counterbalance support shown in section.
Fig. 7 is a section through apor'tion of the auger-supporting arm with. parts enlarged and parts broken away.
Fig. 8 is another view of the portion of the auger-supporting arm, shown in Fig. 7, with the ends reversed and with the clamp tor the arm in side elevation;
Fig. 9 is a side elevation of the apparatus provided with a propelling attachment by which means the apparatus travels from place to place under its own power. For the sake of clearness parts are omitted and parts broken away.
Fig. 10 is a modification of the apparatus illustrated in Figs. 1 to 9, inclusive; the view hereshown being a sectional; elevation simi lar to Fig. 1, with parts omitted and parts broken away. and altered positions of the parts being shown by dotted lines.
Fig. 11 is another modification of the apparatus which is shown in plan, with parts broken away.
Fig. '12 is a side elevation of the apparatus shown in Fig. 11.
Fig. 13 is a sectional elevation of the apparatus, with many parts omitted for the sake of clearnes's.
In detail, my invention comprises a bed plate 1 secured to a bent axle 2 by an elongated clip 3, which is secured around the axle 2 and to the bed plate bybolts 4, and the ends of the axle 2 are supported by wheels 5 and 6.
To and under the bed plate land near its rear end is secureda leg 7 and. by means of this leg and the wheel support the bed plate 1 is maintained in a level position except when the leg is elevated from the ground for the purpose of transporting the device from place to place.
On the bed plate 1 are beams 8 and 9, on whichan engine 10 is mounted, the engine and the beams being secured to the bed plate 1 by'the bolts 11.
The heaviest portion of the engine is p0- sitioned between the wheels 5 and 6 and the foot 7, and the other mechanism is distributed so that a slight overbalance of weight is between the foot piece 7' and the wheel support. This slight unbalanoing of the weight is for the purpose of maintaining the equilibrium of the apparatus when at rest; and also for the purpose of easily lifting the foot piece 7 from the ground when the apparatus is to be transported from place to place.
Secured to the bed plate 1 is the handle l2whichserves as means for raising the foot piece 7 from the ground and also for pulling or pushing the apparatus from place to place.
A means is provided, however, whereby the apparatus can travel from place to place under its own power-instead of being moved by hand as above indicated. For
this purpose there is mounted upon, and at one end of the bed plate 1. a stub shaft 13, to which is secured a pulley 1%. which is connected with a pulley 1.6 by a belt 17,
the ptlll'ey lfi being mounted on the engine shaft 18,se'e'Fig; 9, on the stub shaft a sprocket wheel 19,
There also secured which is connected with a sprocket wheel 20 by a sprocket chain 21.
Then the apparatus is driven by the power means just described a straight shaft 22 is substituted for the bent axle 2 and secured to the bed plate 1" by any suitable means, and wheels 23, of less diameter than the wheels 5 and 6, are substituted for the latter. Also, a clutch mechanism 24 is interposed between the pulley 16 and the engine shaft 18, and a toggle wheel 25 mounted in a yoke 27 on a pin 28 is substit-uted for the foot piece '7.
On. the upper end of the yoke 27 is an extension 29, which passes through the bed plate 1 and has secured on the upper end thereof the inner end of the handle 12, which serves as means for turning the toggle wheel so as to guide the apparatus when it is moved from place to place.
The engine 10' may be of any construction suitable for such purpose as herein indi cated and, if it is of the internal combustion type, can be supplied with fuel from the tank 10 by the'pipe' 10.
The crank shaft 18 of the engine 10 is mounted. in i'lpward extensions 30 on the beams S and 9, and has on one end thereof mounted, fixed and loose pulleys 31 an'd32', respectively. On its other end the shaft 18 is supplied with a removable crank lever 33, by which the engine is cranked'for starting; and on this shaft are also mountedflywheels S 1.
On the extensions of the' housings 30 that form the bearings for the shaft 18 are pivotally mounted the lower ends of aims 35, and in the upper ends of the arms3 5' is mounted a jack shaft 36, parallel with the straight portion of the crank shaft 18.
On one end of the jack shaft 36, fixed and loose pulleys 37 and 38, respectively, are so mounted'that, when a belt 39 connects the pulleys 31 and 37, the jack shaft 36 will be rotated during the operation of the engine andgwhen this belt is over the pulleys 32 andQS, the jack shaft will be idle,
A means is provided for shifting the belt 39 from the fixed tothe loose pulleys. As is best shown'i'n Figs l, 4 and 6; a rod 40 passes through the arms 35aind' has s'e cured thereto one end of a shifting lever 4511. The lever 11 is fulcrumed around the brace rod 42, which has one end thereof secured to the beam 9, and its other end secured to an upright hollow post 43, the purpose: of which is explained hereinafter.
Secured to one end of the rod'40 are fingers M which are arrangedoppositely to each other relative to the edges of the belt 39, so that when the rod 40 is moved by the hand lever 1, one of the fingers 44: will contact with the respective edge of the belt, and thus move the belt either to the fixed or to the loose pulleys. As is best shown in Fig. 6, the lever 41 is fulcrumed on the brace 42 by means of the rod 41, which has its ends secured to the lever 41 and is bent outward around the brace rod 4-2, so that, when the lever 41 is moved in either direction, it contacts with the rod 42 and thereby forms a fulcrum point.
To the upper end of the post 43 is secured one end of an extension 45, near the other end of which is secured one end of a brace 46, the other end of said brace 46 being secured to the hollow post 43.
The hollow post 43 is preferably formed of a channel iron 47 and an angle iron 48, which irons overlap each other, as seen in' Fig. 6, and are secured together by any well known means. Upon the channel iron 47 are outwardly extending lugs 49, secured to the bed plate 1 by screws 50.
W ithin the hollow post 43 is mounted a counterbalance 51, attached to one end of a cable 52, which passes over sleeve pulleys 53 and 54', respectively, and is at its other end secured to a ring 55 on an arm 56.
The sleeve pulleys 53 and 54 are mounted on pins 57 and 58, respectively, at opposite ends of the extension 45, the purpose of the counterbalance 51 and its connection with the arm 56 being explained hereinafter. On the arm 56 is riveted one end of a side brace 56, the other end of which is mounted on the outer end of the shaft 36.
The arm 56 which is preferably formed of a pipe, has one end pivotally connected with the shaft 36, and to its other end is secured an extension 57, formed of a pipe 58, which. has therein a brass-jacketed wooden rod 59 for the purpose of reinforcing the outer end of the arm 56 as seen in Figs. 7 and 8, the pipe 56 and the reinforcing rod 59 telescope, and a band 60 provided with flanges 61 which are secured together by a bolt 62, 8813 88 to clamp the pipe to the reinforcing r0 (3n the outer end of the extension 57 is mounted a shaft 63 having its bearing in a bushing 64 secured in the flattened end of the pipe 58 in a bracket 65.
The bracket 65 and another bracket 66 are secured to a rectangular band 67 by the bolts 68, the bracket 66being spaced away from one side of the band 67 by a washer 69 and a block 7 0, shown in Fig. 5, and the shaft 63 having thereon and near one end thereof mounted a pulley 71 and the end of the shaft. being journaled in a bearing 72 se cured in the band 67. In order to drive the shaft 63, the pulley 71 is connected by a belt 73 with a pulley 74, secured to the jack shaft 36. I Secured to the other end of the shaft 63 IS a bevel pinion 7 5, which meshes with a gear 76, having on its underside a hub extension 77, journaled in the bracket 66, being in its center provided with a square opening 78 for receiving therein the square shank 79 of a drill bit 80.
The square end of the shank 79 abuts a stop 81, and in the square end is inserted a cotter pin 81 in order to prevent the bit from dropping through the opening 78 when the bit 80 is being withdrawn from the ground after the drilling of a hole 82, shown in cross section in Fig. 2, with the bit or auger 8O removed, and with a powder charge 124 in the bottom thereof.
Attached on each end ofthe rectangular frame 67 are handles 83, which the operator holds in order to shift the bit80 to pro or drilling position, and on which he app ies his weight when the device is in operation and the bit is driven into the ground for drilling a hole. The handles 83 also serve the purpose of assisting the counterbalance 51 in lifting the bit from the ground after the hole 82 has been drilled, while the counterbalance and its cable and sleeve pulley connection with the arm 56 are for the purpose of holding the arm 56 and, consequently, the bit 80 in elevated position when the bit is not in use.
A brace 84 has one end thereof secured to the frame 67 and its other end bent inwardly and secured to the pipe 58 by rivets 85; and a bolt 86 passes through the extension 57 and the brace84 so as to form a substantial, rigid connection between these parts.
Also, as seen in Fig. 8, the end 87 of the brace 84 forms a stop for the flanges 88 and 89 of the band 60, there being spaces 90 and 91, respectively, between the end 87 and the flanges 88 and 89 in order to allow a considerable rotational, oscillation orplay of the extension 57 and its associated parts on the produced axis of the arm and extension for the purpose of giving the anger or hit 80 side movements. relative to a vertical plane drawn centrally and longitudinally through the machine, so as to permit the bit 80 to be driven obliquely into the ground.
It is further evident that the bit 80 has a swinging movement toward and away from the end of the machine onaccount of the pivotal connection of the rectangular frame 67 and its associated parts with the shaft 63. In other words, the rectangular frame 67 will turn on the shaft 63, and the pinion 76 will change its position on the gear 75 so as to allow the bit 80 to be swung toward or away from the machine.
Also, as seen in the drawings, the rod 56 and all of its associated parts can be moved toward or away from a vertical line central through the engine shaft. In other words, since the rod 56 has one end thereof pivotally connected with the shaft 36, and since, as previously stated, the shaft 36 is mounted in the upper ends of the arms 35, and the arms 35 have their other ends pivotally mounted, it is clear that the upper ends of said arms can be moved in the arc of a circle.
Normally, thearms 35 are automatically returnedlto and held in a. perpendicular position, as. shown in full. lines in Fig. 1,"by means of springs llfl which have their outer ends secured to a plate 93, attached. by screws 94 to the beam 9,and their inner ends, sccured to= a plate 95 secured by screws 96 to one of the arms 35..
By means of the arc movement of the upper ends of the arms 35 and the pivotal mounting of the augeror bit 80 on the outer end of the arm 56, theiauger or bit can be moved downward in a perpendicular line, as indicated in 1 by the dotted linepositions of thevarious parts.
As is furtherindicated by dotted lines in the same figure, the bit 80 can be moved from a perpendicular position so as to enable the operator to place the point of the hit upon the bed pl'ate'l, as at 97, when the drilling; apparatus is idle and when it is to be novcd to another place.
In the modification shown in Fig. 10, the pivotal ends of the arms 35, instead. of be ing mounted on the extensions llfillllll the engine shaft, are mounted on a shaft 98,
supported by bearing stanus 99, which are secured to the beams Saud 9: by bolts 100.-
The fixed pulleys3-1 and 37. and the- loose pulleys 32 and 38 are mounted on the. respective shafts'98 and '36; and the shaft 98 has thereon a pulley 101: connected with a pulley 1020B the engine shaft '18 by a belt 103 in order to drive the shafts 98-and 36, which in their turn drive the bit 80 by means connected therewith, as hereinbeforc described.
Fromthe foregoing, it can readily be seen that in this inodification the ends of the arms 35 move in the arcof a circle, inverted to the arc dcscribedby the movement of the arms 35 previously referred to, but that the movements andoperations of all the other parts are substantially the same in: the modifiedas in the preferred. construction.
In the modified construction the spring support for the arms 35 is dispensed with, asthe arms automatically return to a perpendicularposition by gravity after having been moved out of such position for the purpose of holding the bit 80 per-penthoularly during the drilling operation.
In the modified forms shown in Figs. 11 to 13, inclusive, the apparatus is simplified to a very great extent, and many parts are eliminated. V
In these figures, lugs 10-1 and: 105, are shown as having pivotally mounted therein a gear boxing 106 and as being secured to the bed plate 1 by screws 107. The boxing is also shown as secured to the bed plate 1 bya. thumb bolt 108. Mounted in a bearing 109 is a shaft 110, on one endof which a pulley 111, connected with a pulley 112 on the engine shaft 18 by a belt 113.
On. the other end of the shaft 110 is a bevel gear 114, which meshes with a pinion l15.having therein a square opening 116, through which extends the square end 79 of the bit 80.
On the upper end of the bit 80 is pivotally mounted a handle 117, which the operator holds, and on which he bears his weight when the apparatus is in operation and the bit 80-is driven into the ground. The square end 79 of the bit 80 is of considerable length and, by pressure of the operators weight, is forced downward through the pinion 115, as the hole is drilled.
cut-away portion in the bed plate 1 forms a recess 118. through which the bit 80 passes, the recess being open on one side so that, when the thumb bolt 103 is loosened, the boxing 106. can be. turned over on its hearings in the lugs 104i and 105, and thereby enable the operator to place the bit 80 in a horizontal instead. of. a verticalv position when the apparatus is to be t flJISPOIYtCtl. from place to place.
In praoticethe apparatus is transported either manually or under its own power to the place of operation, such place usiiia-lly being orchard; land in which, as a rule arranged in rows, the points for drilling the holes for the-purpose. of blasting have been determinednand indicated. after which the apparatus is; positioned to follow the rows from pointto point.
Vllith the apparatus positionedover one of these determined points, the operator graspsthe handles; 83 and moves the point Of-tlle, bit 80 to a line perpendicular to the determined point. Then. assuming that the engine isiin operation, he moves the lever 41 so as to shift the belt 39 from the loose to the fixed pulleys. thereby rotating the bit 80, which thus begins drilling a hole in the ground at the point indicated. By adding his weight to the handles 83, the operator causes the bit 80 to drill very rapidly throughthe hardpan subsoil. and to form a hole 82 suitable for. orchard-blastingz purposes.
When a predetermined depth is reached, the. operator, by means of the handles 83and aided by counterbal.a11ce 51, easily liftsthe bit from the hole. The belt thereafter shifted to the loose pulleys. and the apparatus is, moved to a new drilling point, where the operation is repeated.
By the foregoing easy and simple operation a hole is drilled in a few moments through a hardrpan subsoil, the drilling of which by a hand auger, according to the old method, would require hours of arduous labor to accomplish.
However, the business of blasting for tree planting has become an absolute necessity. Consequently, there is a great need of a machine adapted to perform the work for which the laboring man is physically un suited.
In the drawings, Figs. 2 and 3, which illustrate the purpose of this machine,show
the top soil 119 as quite shallow and underlaid with a solid hard-pan 120, through which the roots of trees or vegetation are unable to penetrate.
As seen in Fig. 3, the roots of the tree 121, having contacted with the hard-pan 120 and being unable to penetrate it, have turned back into the top soil, the impoverished condition of which, together with its lack of moisture, causes the body of the tree to be dwarfed and spindlin The tree 122, on the contrary, illustrates one, which is planted in a place where the hard-pan has been pulverized by blasting so as to allow the roots to penetrate to the rich,moist subsoil 123, which is almost invariably found below a stratum of hard-pan, thus, owing to the trees vigorous root growth, the growth of the tree above the ground is correspondingly vigorous.
In Fig. 2, the area of the pulverizing effect of a charge of blasting powder 124: is.
indicated by the curved dotted line 125. The effect of blasting, however, is not limited to this area, as the shock rends long fissures 126 in the rock and hard-pan, as seen in Fig. 3, and thus opens passageways for the tree roots and also'forms pockets for the accumulation of water.
In order to adjust the tension of the belt 73, the operator loosens the bolt 62 through the flanges 61 of the band 60, and is thereafter, by means of the handles 83,-able to move the extension 57 to a position in the arm 56 adapted to produce the desired tension, after the attainment of which he again tightens the bolt 62.
This invention admits of modifications and changes and a right is reserved to all such modifications and changes as do not depart from the scope and spirit of the invention.
I claim- 1. In an adjustable power auger, a portable frame, an engine on said frame; a holeforming apparatus operatively connected with said engine and said frame; an auger having its shank end pivotally connected with said apparatus; a counterbalance flexibly connected with said shank end for normally opposing the downward movement of said auger; and manual means pivotally connected with said shank end for moving the auger downwardly.
2. In a hole-forming apparatus, a portable frame, an arm pivotally mounted on said frame, an auger pivotally mounted at its shank end on said arm, means for swinging said arm so as to move said auger into drlllmg posltion, a motor on said frame,
and a drivmg connectionbetween said motor 7 and said auger, a hollow post on said frame for adj ustably supporting said arm, a counterbalance in said hollow post, and a cable connection between said counterbalance and said arm.
3. In a hole-forming apparatus a portable frame, an arm pivotally mounted on said frame, an extension on said arm, an auger having its shank end pivotally mounted on.
a motor on said frame, an arm pivotally.
mounted on said frame, an extension on said arm, an auger having its shank end pivotally mounted on said extension, a driving connection between said motor and said auger, and means whereby said auger can be moved to an angular position relative to a line perpendicular to a longitudinal vertical plane through said frame.
6. A power auger comprising a frame; a
power boring apparatus on the frame; a boring bit pivotally mounted at one side of the center of gravity of the frame; two supporting wheels journalled to the frame near the center of gravity of the frame and of the apparatus so that said apparatus may be pivotally turned and adjusted on the ground with ease so as to readily bring the boring bit of the apparatus to the point on the ground where the boring is to be made.
7. In a hole forming apparatus, a frame, a motor on said frame, an arm pivotally mounted on said frame, an extension on said arm, a rotationally oscillating connection between said arm and said extension whereby said extension may be oscillated on the produced axis of said arm and extension, an auger pivotally mounted on said extension, and a driving connection between said motor and said auger.
In testimony whereof, I have hereunto set my hand at 0s Angeles, California, this 2d day of May, 1919.
LAWRENCE HOLMES. Witness:
Wm. M. Gum.
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2611583A (en) * 1948-04-06 1952-09-23 William H Ellis Rotary drill for drilling wells
US2803434A (en) * 1951-03-20 1957-08-20 Heinish George Rotary well drilling machine
US3872933A (en) * 1973-02-28 1975-03-25 Atlas Copco Ab Suspending device
US20080078565A1 (en) * 2006-09-28 2008-04-03 Paskar Stanley M Auger stabilizer
US20090008153A1 (en) * 2006-09-28 2009-01-08 Paskar Stanley M Auger stabilizer

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2611583A (en) * 1948-04-06 1952-09-23 William H Ellis Rotary drill for drilling wells
US2803434A (en) * 1951-03-20 1957-08-20 Heinish George Rotary well drilling machine
US3872933A (en) * 1973-02-28 1975-03-25 Atlas Copco Ab Suspending device
US20080078565A1 (en) * 2006-09-28 2008-04-03 Paskar Stanley M Auger stabilizer
US20090008153A1 (en) * 2006-09-28 2009-01-08 Paskar Stanley M Auger stabilizer
US7717195B2 (en) 2006-09-28 2010-05-18 Paskar Stanley M Auger stabilizer
US7743852B2 (en) 2006-09-28 2010-06-29 Paskar Stanley M Auger stabilizer

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