[0001] The present invention relates to a method and apparatus for use with a portable hand-drill.
[0002] Portable hand-drilling operations in the field, for example at a construction site,
have been known to suffer certain drawbacks stemming from difficulty in controlling
the drill, particularly heavy drills, and difficulty in holding the workpieces. These
problems not only can affect accuracy, quality and rate of production but they also
seriously risk the safety of the drill operator.
[0003] During drilling operations with a portable hand-drill, a reaction torque is generated
in the drill and it is thus necessary for the drill operator to resist this torque
with his body in order to hold the drill steady and to prevent rotation of the workpiece.
This problem becomes acute with heavy or large hand drills because the reaction torque
can be great enough to strain the operator's hands, arms, shoulders or back. Moreover,
if the drill cannot be steadied by the operator, the workpiece can rotate out of control
causing a safety hazard while frustrating the drilling operation.
[0004] In order to combat the aforementioned problem, it is often necessary to drill holes
at the same location in successively larger sizes (until the desired size is reached)
in order to reduce the generated reaction torques. This, of course, seriously slows
the rate of production and increases costs.
[0005] Other attempts to overcome the problem utilize magnetic devices for holding the drill
in the proper position. However, such devices are heavy, cumbersome and costly and
therefore are not readily available at job sites.
[0006] To avoid the problem caused by a rotating workpiece, vices have been used. However,
the problem of torque stress exerted on the operator's body still persists which can
cause serious injury. Moreover, the use of vices seriously slows operations because
for each drilling operation, the vice must be loosened, relocated and reset.
[0007] It is a primary object of the present invention to provide a method and apparatus
for conducting hand-drilling operations with ease, accuracy and safety and which
overcome the aforementioned problems. Included herein are such method and apparatus
which divert stress from the drill away from the operator's body, while holding the
workpiece in fixed position without a vice, for safe and efficient drilling.
[0008] Another object of the present invention is to provide novel apparatus for holding
a hand drill during a drilling operation to remove stress from the drill operator.
[0009] A further object of the present invention is to provide novel apparatus for preventing
rotation of a workpiece being hand-drilled.
[0010] Another object of the present invention is to provide novel apparatus for holding
a hand drill while preventing movement of the workpiece being drilled during a drilling
operation.
[0011] A still further object of the present invention is to provide novel method and apparatus
of the type described which may be applied to conventional hand drills or newly designed
hand drills and which are easy and safe to operate.
[0012] A still further object of the present invention is to provide such an apparatus as
described above and which is also portable and easily assembled or disassembled.
[0013] Yet a further object of the present invention is to provide such apparatus that may
be manufactured either as a portable attachment for conventional or new hand drills
of various designs or as part of the hand drill itself. Included herein is the provision
of such apparatus that possesses relatively few parts that may be economically mass
produced for retail at relatively low cost and yet will be reliable over long periods
of repeated use without breakdown to improve hand drillling performance and safety.
[0014] According to the present invention there is provided apparatus for use with a portable
hand drill having a body, characterised in that the apparatus comprises an elongate
rigid load transfer member having a free end, and means, affixable to the body of
the hand drill for mounting the hand drill on said load transfer member such that
the free end of the load transfer member may be placed against a workpiece to be drilled
during a drilling operation to transfer torque through the load transfer member and
into the workpiece, thereby diverting torque from the user's body while securing the
hand drill relative to the workpiece without attaching the load transfer member to
the workpiece.
[0015] According to the present invention there is further provided apparatus comprising
a portable hand drill having a body and a chuck mounted to the body for rotation,
at least one handle projecting from the body above the chuck for manipulating the
drill, characterised in that said apparatus further comprises a yoke positioned between
the handle and chuck and securable to the body against rotation, said yoke having
an arm projecting laterally therefrom, an elongate rigid load transfer member having
a free end adapted to be freely engaged against a workpiece to be drilled, means mounting
the arm to the load transfer member against rotation relative thereto, such that during
a drilling operation the free end of the load transfer member is placed against the
workpiece to transfer torque through the load transfer member and onto the workpiece,
to divert torque stress from the user's body, while securing the hand drill to the
workpiece without attaching the load transfer member to the workpiece, said means
comprising a holder receiving said arm for slidable movement of said arm, relative
to the holder, into one of a plurality of selectable positions, said holder having
mounting means slidably receiving the load transfer member.
[0016] According to the present invention there is further provided the steps of mounting
the body of a portable hand drill on a load transfer member, freely engaging a free
end of the load transfer member against a support or the workpiece to prevent movement
of the load transfer member in a direction laterally thereof while transferring torque
to the support or the workpiece, and drilling the workpiece while the load transfer
member is freely engaged against the support or the workpiece to transfer torque through
the load transfer member and laterally into the support or the workpiece thereby diverting
torque from the user's body while securely positioning the drill relative to the workpiece
without attaching the load transfer member to the workpiece.
[0017] In accordance with the present invention, a hand drill is held in a holder which
may be mounted for movement along a load transfer member which may be termed a "jack".
Where the workpieces to be drilled are of a discrete size, the jack is located to
extend alongside of the workpiece so that the torque generated in the workpiece will
tend to cause the workpiece to rotate against the jack while the equal but oppositely
directed reaction torque will be transferred from the drill through the jack and into
the workpiece, thus tending to rotate the jack against the workpiece. Since these
torques are equal in magnitude but oppositely directed, the result will be that the
workpiece is held stationary against the jack and vice versa. In addition, the reaction
torque is diverted from the operator's body and transferred back to the workpiece.
[0018] If the object to be drilled is of very large size or indiscriminate in dimension,
the jack may be anchored against another object or against the foot of the operator
to divert stress from the upper part of the operator's body.
[0019] In cases where the jack is not grounded on a surface during drilling the holder may
be tightly fastened to the jack so that they move together as a unit with advancement
of the drill.
[0020] The holder may be made as a portable attachment to the hand drill or as a part of
the body of the hand drill. For large hand drills, two holders and jacks may be employed
respectively on diametrically opposite sides of the hand drill.
[0021] By way of example only, specific embodiments of the present invention will now be
described, with reference to the accompanying drawings, in which:
Fig.1 is a side elevational view of apparatus, constituting one preferred embodiment
of the present invention, as seen with a workpiece, shown in fragment, and as seen
partly in dotted lines illustrating another position into which the apparatus may
be adjusted;
Fig.2 is a view generally similar to Fig.1 except with the positions of certain parts
of the apparatus interchanged to accommodate a workpiece of smaller length and with
upper portions of the hand drill removed;
Fig.3 is a cross-sectional, plan view taken along lines 3-3 of Fig.1;
Fig.4 is a view generally similar to Fig.3 with parts removed, illustrating oppositely
directed torque forces encountered during a drilling operation;
Fig.5 is a side, elevational view of apparatus constituting another preferred embodiment
of the invention as seen with another, smaller type of hand drill than that illustrated
in Fig.1;
Fig.6 is a plan view of the apparatus of Fig.5 but excluding the hand drill; and
Fig.7 is a view similar to Fig.6 but with a portion of the apparatus reversed in position
for accommodating a workpiece (not shown) of greater length.
[0022] Referring now to the drawings in detail there is shown in Figs. 1 to 4, a first preferred
embodiment of the invention that may be applied to a portable hand drill designated
10 in Fig.1. Hand drill 10 itself may be any conventional hand drill for drilling
holes in a workpiece W as shown in Fig.1 resting on a surface 11. Hand drill 10 typically
includes a chuck 14 for holding a rotary cutting tool or bit 12. The chuck 14 is rotatable
by a motor in the drill housing, driven by power fed through a power cord 16 and controlled
by a trigger 17 lying below a handle 18. Additional handles 20 and 22 are also incorporated.
In conventional drilling operations the operator grasps handles 18 and 20. However,
due to the reaction torque generated in the drill 10, the operator must often exert
great effort to prevent the drill 10 from rotating, which torque may also cause rotation
of the workpiece W. This can cause serious injury to the operator and at the same
time, impede or frustrate the efficiency of the drilling operation.
[0023] In accordance with the present invention, a method and apparatus are provided to
overcome the aforementioned problems in a manner that is easily applicable to conventional
hand drills. The apparatus includes at least one load transfer member designated 30,
and means for mounting or connecting the hand drill 10 to the load transfer member
30 as will be described in greater detail below. In the preferred embodiment of Fig.1,
there are two load transfer members 30 (which may also be termed "jacks") each in
the form of a sturdy, rigid pipe or rod of steel or other suitable material located
laterally of the drill 10 at diametrically opposed locations. The means for mounting
the drill 10 to each jack 30 in the specific embodiment shown in Fig.1 comprises a
holder designated 40, and an arm 50 fixed to the hand drill 10 and received by the
holder 40. Although it is possible to form the arm 50 as an inseparable part of the
drill 10 itself, it is preferred to form the arm 50 as part of a yoke 52 or other
similar means that may be releasably secured to the body of drill 10 as shown in Fig.1.
[0024] In the preferred embodiment, shown in Fig.3, holder 40 is formed by a tubular steel
member having a rectangular cross section and having a through passage 46 extending
to opposite, open ends of the holder 40. Arm 50 is formed by a steel bar of rectangular
cross section, corresponding to that of the internal passage 46 of holder 40, to be
slidable therein into any desired position. Arm 50 may be formed as an integral part
of yoke 52 or may be welded thereto so that it rigidly projects laterally therefrom.
Yoke 50 may take any desired form that will enable fixation to the body of the drill
10. In the specific form shown, yoke 52 is in the nature of a C clamp or shackle which
is dimensioned to encircle the pertinent portion of the body of the drill 10 which
portion is shown as cylindrical in shape and located in the region above the chuck
14. Yoke 52 terminates in apertured flanges 56 secured together by a nut and bolt
assembly 57,58. It will be obvious that other yokes and yoke shapes may be employed
depending on the size and shape of the associated drill body. Moreover, other types
of methods and means may be employed to interconnect the drill body to the associated
jacks 30.
[0025] In order to secure arm 50 to the holder 40 in any desired position therein, any suitable
releasable fastening device or means may be employed. One simple method is to utilize
a thumb screw or set screw such as 60 (Fig.3) threaded through the wall of holder
40 so that its internal extremity engages against the arm 50. A wrench may be applied
to the head of screw 60 to sufficiently tighten it against arm 50.
[0026] In order to mount holder 40 to the associated jack 30, the preferred embodiment includes
a sleeve-like member 42 fixed, such as by welding to one side of the holder 40. Sleeve-like
member 42 has a vertical through passage for slidably receiving jack 30 to permit
the holder 40 to slide downwardly along the jack 30 as the drill 10 advances during
a drilling operation, in cases where the lower end of the jack 30 is engaged or grounded
against a surface such as 11. In order to control the position and movement of holder
40 along jack 30, a releasable fastening device is employed to exert a desired degree
of pressure against the jack 30. Here again, a simple set screw or thumb screw 44
is utilized in the wall of the sleeve-like member 44 to be engageable with jack 30
to control the movement of holder 40 along jack 30 during a drilling operation where
the end of the jack 30 is grounded against a support surface. However, in some uses,
the extremity of jack 30 adjacent of the workpiece W will not be grounded on a support
surface such as 11 in which case the screw 44 may be tightly fastened against the
jack 30 so that the holder 40 and jack 30 will move together as a unit with the drill
10 as the latter advances during drilling. To assist in retaining the jack 30 in the
sleeve member 42 against accidental removal, the jack 30 is provided with a cap 32
larger in diameter or cross dimension than that of the internal passage of sleeve
member 42.
[0027] Both of the jacks 30 and holders 40 utilized in the embodiment of Fig.1 are identical.
Moreover, their positions may be changed, for example, from that of Fig.1 to that
of Fig.2, in order to reduce the distance between the jacks 30 and so to accommodate
workpieces of smaller length such as W1 shown in Fig.2. The open opposite ends of
the holders 40 allow the arms 50 to be inserted through either end of the holder as
may be required. The dotted lines in Fig. 1 illustrate a position of jacks 30 that
may be used for a larger workpiece.
[0028] In use of the apparatus, and with reference to Fig.3, the holders 40 with their jacks
30, are positioned on the arms 50 with jacks 30 located on opposite sides of arms
50. Holders 40 are then slid along arms 50 into the desired position depending on
the length of the workpiece W and with jacks 30 equidistant from the centre of the
drill or bit 12. Once the holders are adjusted into proper position, screws 60 are
then fastened against arms 50 to secure the latter in holders 40. The drill 10 may
then be positioned to place the jacks 30 on opposite sides of the workpiece W as shown
in Fig.3. The operator may then grasp handles 18 and 20 or 18 and 22 and commence
drilling.
[0029] Referring now to Fig.4, arrow 70 illustrates the direction of rotation of drill bit
12. A torque will be generated in the workpiece W in a direction indicated by arrows
T₁. A reaction torque will be generated in drill 10 but this torque will be transferred
from drill 10 through jacks 30 and into the workpiece. The reaction torque is indicated
by the arrow T₂ in Fig.4. As the torques T₁ and T₂ are equal and oppositely directed,
the workpiece will be held stationary against the sides of jacks 30 and vice versa.
Moreover, the torque generated in drill 10 will be diverted away from the operator
and back into the workpiece W. The result is a smooth and efficient drilling operation
with no harmful torque stress received by the operator.
[0030] Referring now to Figs. 5 to 7, there is illustrated another preferred embodiment
of apparatus of the invention which may be applied to a conventional hand drill 80
that is of a smaller size than hand drill 10 of Figs. 1 to 4. Hand drill 80 itself
may be conventional and includes a handle 81 and a control button or trigger 83 for
controlling the motor which is housed within the drill 80. The apparatus of the present
invention in the embodiment of Figs. 5 to 7 includes a holder 82 similar to holder
40 described above and including a through passage 84 and a sleeve 86 for receiving
a jack 30. In the specific embodiment, sleeve 80 is fixed to the side wall of holder
82 by a bracket 87 which may be welded to holder 82. A thumb screw 88 is provided
through the bracket 87 and sleeve 86 to be engageable with jack 30 to fix or control
its position.
[0031] Slidably recieved in holder 82 is an arm 90 which is held in any desired position
by thumb screw 91. In the specific embodiment, holder 82 is provided with another
threaded opening at 92 (see Fig.5) for receiving thumb screw 91.
[0032] Arm 90 is fixed to a yoke 94 which in the specific form includes a continuous polygonal
enclosure made from any suitable sturdy material and shaped to correspond to the external
shape of the drill 80 above the chuck 79. Specifically, yoke 94 includes a front wall
95, a rear wall 96 generally parallel to the front wall 95 and opposite side walls
97 defining a cavity for receiving the drill 80. Arm 90 projects laterally from front
wall 95 at the centre thereof where it may be integrally joined or welded.
[0033] In order to secure the drill 80 within yoke 94, the front wall 95 has a flange 98
projecting upwardly therefrom to extend along the casing of the drill 80 as shown
in Fig. 5. A bolt 99 is received through a threaded aperture in flange 98 for engagement
against the housing of the drill 80 as shown in Fig.5. Advancement of bolt 99 will
secure the drill 80 within the yoke 94. Even though only a single jack 30 is used
in the embodiment of Figs. 5 to 7, the principle of operation is the same as described
above. That is, the torque generated in the drill will be transferred to the jack
30 and back to the workpiece which is held in place against the side of the jack 30.
[0034] In drilling large workpieces where the side of the jack 30 cannot be placed against
the workpiece, another support (not shown) may be used to anchor the jack 30 to transmit
reaction torque to the support. In some cases, the operator may take place the jack
30 against his foot to steady the drill and divert stress away from his arms. In cases
wherein the end of the jack 30 is not grounded against a support but still engages
the side of the workpiece, the jacks 30 are secured within the sleeves 42 so that
they will advance with the drill as the drilling proceeds.
[0035] It can be seen that the presnt invention may be used in drilling large or small workpieces
without subjecting the operator to harmful torque stress.
1. Apparatus for use with a portable hand drill (10) having a body, characterised
in that the apparatus comprises an elongate rigid load transfer member (30) having
a free end, and means, affixable to the body of the hand drill (10) for mounting the
hand drill (10) on said load transfer member (30) such that the free end of the load
transfer member (30) may be placed against a workpiece (W) to be drilled during a
drilling operation to transfer torque through the load transfer member (30) and into
the workpiece (W) thereby diverting torque from the user's body while securing the
hand drill (10) relative to the workpiece (W) without attaching the load transfer
member (30) to the workpiece (W).
2. Apparatus as claimed in claim 1, wherein said means comprises a yoke (52) receivable
about the body of the portable hand drill (10).
3. Apparatus as claimed in claim 2 wherein said means further comprises an arm (50)
laterally projecting from the yoke (52), and a holder (40) slidably receiving the
arm (50) such that the distance between the yoke (52) and load transfer member (30)
may be adjusted.
4. Apparatus as claimed in claim 3, further comprising means releasably securing the
arm (50) and holder (40) in one of a plurality of selected positions.
5. Apparatus as claimed in either of claims 3 or 4, wherein said holder (40) is slidably
mounted on said load transfer member (30).
6. Apparatus as claimed in any of claims 3 to 5, further comprising means releasably
securing the holder (40) on the load transfer member (30).
7. Apparatus comprising a portable hand drill (30) having a body and a chuck (14)
mounted to the body for rotation, at least one handle (18,20,22) projecting from the
body above the chuck (14) for manipulating the drill (30), characterised in that said
apparatus further comprises a yoke (52) positioned between the handle (18,20,22) and
chuck (14) and securable to the body against rotation, said yoke (52) having an arm
(50) projecting laterally therefrom, an elongate rigid load transfer member (30) having
a free end adapted to be freely engaged against a workpiece (W) to be drilled, means
mounting the arm (50) to the load transfer member (30) against rotation relative thereto
, such that during a drilling operation the free end of the load transfer member (30)
is placed against the workpiece (W) to transfer torque through the load transfer member
(30) and onto the workpiece (W) to divert torque stress from the user's body, while
securing the hand drill (10) to the workpiece (W) without attaching the load transfer
member (30) to the workpiece (W), said means comprising a holder (40) receiving said
arm (50) for slidable movement of said arm (50) relative to the holder (40) into one
of a plurality of selectable positions, said holder (40) having mounting means (42)
slidably receiving the load transfer member (30).
8. Apparatus as claimed in claim 7, further comprising means releasably securing the
arm (50) to said holder (40) in a selected position.
9. Apparatus as claimed in any of claims 1 to 8, wherein the hand drill (10) is mounted
on the load transfer member (30) for movement along the member.
10. A method of hand drilling a workpiece (W) or other object, characterised in that
the method comprises the steps of mounting the body of a portable hand drill (10)
on a load transfer member (30), freely engaging a free end of the load transfer member
(30) against a support or the workpiece (W) to prevent movement of the load transfer
member (30) in a direction laterally thereof while transferring torque to the support
or the workpiece (W), and drilling the workpiece (W) while the load transfer member
(30) is freely engaged against the support or the workpiece (W) to transfer torque
through the load transfer member (30) and laterally into the support or the workpiece
(W) thereby diverting torque from the user's body while securely positioning the drill
(10) relative to the workpiece (W) without attaching the load transfer member (30)
to the workpiece (W).
11. A method as claimed in claim 10 wherein the body of the portable hand drill (10)
is mounted on the load transfer member (30) for movement along the load transfer member
(30).