U.S. patent number 3,883,064 [Application Number 05/456,367] was granted by the patent office on 1975-05-13 for bracket setting tool.
Invention is credited to Thomas M. Hilgers.
United States Patent |
3,883,064 |
Hilgers |
May 13, 1975 |
Bracket setting tool
Abstract
A tool for setting brackets in wood or the like, includes a
hammer actuated drive mechanism and a bracket containing magazine.
The drive mechanism has drive legs cammed into position to, first,
unstack the bottom bracket from a stack of brackets in a magazine
and, secondly, to drive said unstacked bracket into set position in
wood or the like. The bottom drive leg is bifurcated and has an
angled front surface to permit advancing of the stack of brackets
into position and the side drive legs are urged into bracket
driving contact by a cam member on side plates. The magazine for
storing a stack of brackets has a pivoted loading and unloading
cover and has a U-shaped, spring actuated retainer urging the
bottom bracket of said stack of brackets into position ready for
setting.
Inventors: |
Hilgers; Thomas M. (Mundelein,
IL) |
Family
ID: |
23812478 |
Appl.
No.: |
05/456,367 |
Filed: |
March 29, 1974 |
Current U.S.
Class: |
227/120; 227/125;
D8/51; 227/147 |
Current CPC
Class: |
B25C
3/002 (20130101) |
Current International
Class: |
B25C
3/00 (20060101); B25c 001/02 () |
Field of
Search: |
;227/120,125,126,128,129,134,147 |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Custer, Jr.; Granville Y.
Attorney, Agent or Firm: Wegner, Stellman, McCord, Wiles
& Wood
Claims
I claim:
1. A bracket setting tool having a drive tube for encasing a drive
mechanism and a magazine for receiving a stack of brackets, said
magazine intersecting said drive tube at an acute angle, said drive
mechanism comprising a drive bolt having a contacting head exposed
externally of said tubing, a drive slug slidably mounted in said
tubing and being connected to said drive bolt, a guide tube plate
mounted in said tubing and having a bolt guide tube telescopically
receiving said drive bolt, compression spring means encircling said
drive bolt and urging said drive slug and said guide tube plate
apart, plural drive legs keyed to said drive slug for movement with
said drive slug, one of said drive legs being a bottom leg
positioned on the bottom of said drive tube and having a bifurcated
pair of fingers extending forward in position to engage a bottom
bracket in the stack of brackets in said magazine, the forward edge
of said fingers being partially sloped in a plane common to the
acute angle of the plane of the wall of the magazine so as to
permit the stack of brackets to advance the bottom bracket into
position for setting, two of said drive legs being side drive legs,
each said side drive leg having an inwardly directed drive finger,
a camming member in said drive tube in the path of movement of each
side drive finger which member deflects said side finger inwardly
to engage the opposite sides of the bottom bracket in said stack of
brackets, resilient means between said drive slug and said drive
tubing for absorbing rearward movement of said drive slug, a cover
for said magazine pivoted at the junction between said magazine and
the drive tube and adapted to be pivoted away from said magazine to
permit a stack of brackets to be inserted in said magazine, a
U-shaped retainer extending into said magazine from a remote end
thereof, a spring on one leg of said retainer urging the end of
said leg against the remote end of said stack of brackets to urge
said brackets toward said drive tube, and being retractable against
said spring urging to said retainer a disengaged position when a
new stack of brackets is placed in said magazine.
2. In a setting tool as claimed in claim 1 wherein said side drive
legs pass through a guide rail on the sides of said magazine with
said camming member positioned on said guide rail in engagement
with the outside surfaces of said movable drive legs.
3. In a setting tool as claimed in claim 1 wherein said bottom
drive leg has an opening between said fingers into which a dimple
on the bottom of each bracket nests as each bracket is forced into
the bottommost position in the stack ready for setting.
4. In a setting tool as claimed in claim 1 wherein an outer wall of
said magazine has a bottom edge aligned with the gap between the
two bottommost brackets so as to retain the next to the bottom
bracket in the stack as the bottom bracket is being set.
5. In a setting tool as claimed in claim 1 wherein said drive bolt
has a shoulder bearing against said drive slug with said drive bolt
extending through said drive slug.
6. In a bracket setting tool having a tube containing a drive
mechanism and a magazine intersecting said tube at an angle with
respect thereto, said magazine adapted to receive a stack of
brackets with the bottommost bracket being aligned with said drive
mechanism, said drive mechanism having means exposed externally of
said tubing for receiving a blow from a hammer, said drive
mechanism having a plurality of drive legs with at least two of
said legs being cammed into position to engage and advance the
bracket aligned with said drive mechanism, a cover for said
magazine pivoted thereto and adapted to be opened to permit a stack
of brackets to be inserted in said magazine, a retainer in said
magazine, and a spring on said retainer urging said retainer
against the end of said stack of brackets to urge said brackets
toward said tube.
7. In a bracket setting tool as claimed in claim 6 wherein the
pivot for said cover is located at the junction between the
magazine and the tube and secures said magazine to said tube.
8. In a bracket setting tool as claimed in claim 6 wherein one of
said drive legs is a bottom leg and has a bifurcated pair of
fingers extending forward in position to engage the bottom bracket
in said stack of brackets, a portion of the forward edge of said
fingers being sloped in a plane common to the plane of the wall of
the magazine so as to permit the stack of brackets to advance the
bottom bracket into position for setting.
9. In a bracket setting tool as claimed in claim 8 wherein the
forward edge of said fingers of said bottom leg are positioned to
make contact with said bracket prior to contact by said at least
two drive legs.
10. In a bracket setting tool as claimed in claim 6 wherein said
camming of said two legs is produced by said tube having a camming
member in the path of movement of said two drive legs which member
deflects said drive legs inwardly to engage the opposite sides of
the bottom bracket in said stack of brackets as said drive
mechanism is moved forward.
11. In a bracket setting tool as claimed in claim 10 wherein means
are provided between said drive mechanism and said tube for
absorbing rearward shock of said drive mechanism.
12. In a bracket setting tool as claimed in claim 6 wherein said
retainer is retractable against said spring urging to a disengaged
position when a new stack of brackets is placed in said magazine.
Description
BACKGROUND OF THE INVENTION
This invention relates to tools for the construction industry and,
more particularly, to a tool for setting wallboard backing
brackets.
In my copending application Ser. No. 80,975, filed Oct. 15, 1970,
entitled "Wallboard Bracket," I described the use of a bracket in
erecting a building which saves considerable material and,
therefore, reduces the cost of the construction. Specifically, in
partitioning the inside shell of a home, for instance, it is
necessary to use one or possibly two additional studs where the
partition wall joins the outside wall against which studs the edge
of the wallboard can be nailed. In my prior filed application, I
describe a bracket which can be attached to a stud to provide a
backing for the edge of the wallboard without the installation of
the one or two additional studs thereby saving the expense of the
material and the expense of the installation of said stud for
backing said wallboard.
There are no known tools or guns available for setting brackets for
backing Sheetrock or the like, nor are there any known brackets
that can be stacked for use in tools or guns for machine
installation.
SUMMARY OF THE INVENTION
A bracket setting tool is provided and comprises a tube containing
a bracket driving mechanism and a bracket storing magazine
connected to said tube at an angle with respect thereto. The
bracket driving mechanism has an externally exposed drive bolt or
lug which receives the blow from a hammer for propelling the
driving mechanism forward to pick up a bracket from the bottom of a
stack of brackets maintained in the magazine and to drive said
bracket forward and into set position in the wood, or the like,
building member. The stack of brackets in the magazine are
positioned one with respect to the other in such a way that the
bottommost bracket is urged by a U-shaped retainer acting upon the
end of the stack to position the bottommost bracket in alignment
with the driving mechanism ready to be driven into set position.
The tool has a pair of tabs which are positioned on the edge of the
stud or building member so as to properly align the bracket on the
stud. The bracket then forms the backing for the edge of a sheet of
wallboard.
The driving mechanism has a bottom drive leg with a sloped forward
bifurcated pair of fingers which fingers engage the bottom bracket
in driving the bracket forward into set position. The angled
forward surfaces of the fingers permit the next to the bottom
bracket to move into the bottommost position when the drive
mechanism is retracted ready for the next setting operation. The
side drive legs of the driving mechanism pass through a slot in a
guide plate and are cammed into bracket engaging position by a cam
member carried by the guide plate. The impact bolt on the driving
mechanism has a shoulder which bears against a drive slug so that
the blow on the drive bolt is transmitted to the drive slug and
therethrough to the drive legs and on to the bracket. The lower
surface of the forward portion of the magazine is positioned in
alignment with the space between the bottom and the next to the
bottommost bracket in the stack so that the bottommost bracket can
be sheared from the stack individually as it is driven into set
position.
The setting tool is economical, efficient and durable and is very
effective for setting the brackets in position resulting in a
substantial savings in the cost of erecting a building such as a
home or the like.
BRIEF DESCRIPTION OF THE DRAWINGS
The details of construction and operation of the invention are more
fully described with reference to the accompanying drawings which
form a part hereof and in which like reference numerals refer to
like parts throughout.
In the drawings:
FIG. 1 is a schematic view of the bracket setting tool held in
position against a stud ready to receive a hammer blow to set a
bracket;
FIG. 2 is an exploded perspective view of the parts of my improved
bracket setting tool;
FIG. 3 is an enlarged perspective view of the junction between the
magazine the the driving mechanism prior to actuation of the
device;
FIG. 4 is an enlarged perspective view similar to FIG. 3 only with
a bracket propelled forward into set position, the stud into which
the bracket is set is not shown;
FIG. 5 is a cross-sectional view taken on the line 5--5 of FIG. 1
with some parts shown in full;
FIG. 6 is a cross-sectional view taken on the line 6--6 of FIG.
1;
FIG. 7 is a view similar to FIG. 6 only with the driving mechanism
in a forward position;
FIG. 8 is an enlarged view of the forward ends of the bottom drive
leg taken on the line 8--8 of FIG. 6; and,
FIG. 9 is a perspective view of the magazine with the stack of
brackets shown partially in phantom.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring to the drawings, and in particular to FIG. 1, a bracket
setting tool 10 is shown held in position against a stud 12 with a
person holding the tool about to strike a blow with a hammer 14
against the actuator of the tool to set another bracket 16 in said
stud. The bracket 16 is generally of the type shown and described
in my copending application Ser. No. 80,975, filed on Oct. 15,
1970, and entitled "Wallboard Bracket," and, as shown in FIG. 4,
has a tab 18 connected to a web portion 20 with a body or bottom
portion 22 at right angles to said web 20 and a pair of prongs 24
lying in a plane parallel to said body portion 22. As shown in
FIGS. 4, 5 and 9, the body portion 22 has a dimple 26 projecting
downwardly therefrom and both the body portion 22 and the web 20
have struck portions 28 which project out of the planes of said
body and web. The dimple 26 and the struck portions 28 serve to
space one bracket 16 from the next bracket 16 in the stack of
brackets 30 for a purpose which will appear hereinafter.
As shown in FIGS. 2, 6 and 7, an elongate drive tube 32 is provided
and has an end cap 34 fastened to one end portion thereof either by
welding, by shaping over extensions of the side walls or the like.
The drive tube 32 has an elongate opening 36 formed in the top wall
37 and has a pair of positioning tabs 38 projecting forward from
the bottom wall 39 with a slot 40 extending rearwardly
therebetween.
A magazine 42 formed as a hollow member 43 has an elongate opening
44 formed in an upper wall 45 and has an end cap 46 closing the
remote end of said member 43. The cap 46 can be attached in any
well known manner such as by spot welding on the open end of the
member 43 or by coining recesses in said end cap and shaping
extensions of the walls of the member 43 into said recesses. The
lower end of said opening 44 has an inwardly tapered edge 47 (FIG.
5) which serves to prevent the brackets 16 from hanging up thereon
when the stack 30 rests on the cover 55 from upside down use of the
tool. The lower end of said magazine 42 has an open slot 48 in the
wall 45 through which the tab 18 of the brackets 16 pass with the
sides of said end of the magazine having offset openings 49. A pair
of guide rails 50 are welded as at 49a or otherwise secured to the
sides of said member 43 with the top and bottom edges of said rails
50 being parallel to each other and being at an acute angle with
respect to the axis of the magazine 42. The guide rails 50 are
designed to slip fit into the open end of the drive tube 32 so as
to support the drive tube 32 at an acute angle to the axis of the
magazine 42. The guide rails 50 also have elongate guide slots 51
therethrough with the top and bottom walls of said slots 51 lying
parallel to the top and bottom edges of the rails 50. A cam block
or cam member 52 is secured to the outside wall of each rail 50 and
overlaps the forward end portion of the guide slot 51. The cam
blocks 52 likewise slide into the open end of the drive tube 32
along with the guide rails 50 and said cam blocks have threaded
openings 53 aligned with openings 54 in the drive tube 32 so that a
cover plate 55 on the magazine 42 can be pivotally mounted to the
magazine 42 and to the drive tube 32 by means of threaded members
56 passing through openings 57 in said cover 55. The cover 55 has
dimples 58 gripping the sides of the magazine 42 to hold said cover
closed over the opening 44.
Passing through the end cap 46 of the magazine are both legs 60, 61
of a U-shaped retainer 62 which has a spring 63 encircling longer
leg 61. Spring 63 is positioned inside the housing or hollow member
43 and is held in a compressed condition between the inside of cap
46 and a nut 64 threaded on leg 61. The retainer 62 can be pulled
out of the magazine 42 until the end of the short leg 60 clears the
end cap 46 whereupon the retainer can be rotated about the axis of
leg 61 until the leg 60 aligns with recess 65 in the end cap (FIG.
9) whereupon release of the retainer 62 will hold said retainer in
an inoperative position relative to the inside of the magazine.
Recess 65 is smaller in diameter than the diameter of leg 60 so
that the pointed end 66 of leg 60 will seat in said recess 65 to
hold said retainer 62 in the inoperative condition. A stack 30 of
brackets 16 (see FIGS. 2 and 9) can be dropped in the opening 44
with the cover 55 pivoted open and with the retainer 62 in the
inoperative position. The stack 30 is oriented with the prongs 24
projecting toward the opening in the magazine. The cover 55 is
snapped closed and the retainer is made operative by aligning leg
60 with the opening 67 in the end cap and upon release permits the
spring 63 to drive the end of long leg 61 of the retainer against
the end of the stack to urge the bottom bracket 16 in position for
setting.
The drive tube 32 encases the drive mechanism 70 which comprises a
drive slug 71 having a threaded opening 72 centrally disposed
therethrough and in which a drive bolt 74 is secured. The drive
bolt 74 has a drive shaft 73 which has an enlarged diameter
presenting a shoulder 76 adjacent a threaded portion 77 on the
reduced diameter guide portion 75 of said bolt 74. The bolt 74 is
inserted through the opening in end cap 34 with the threaded
portion 77 threading into opening 72 and having the shoulder 76
bearing against the drive slug 71 with guide 75 extending forward
of said slug 71. The bolt 74 has an enlarged contact head 78
exposed externally of tube 32 and over which head a cup-shaped
impact member 79 is seated to protect said head 78 from direct
blows from the hammer 14. A resilient sleeve 80 encircles the
enlarged drive shaft 73 of bolt 74 inside said tube 32 and bears
between end cap 34 and drive slug 71.
A guide tube plate 82 is positioned in said tube 32 and has a bolt
guide sleeve 83 swagged or otherwise secured therein. The sleeve 83
telescopically encircles the reduced diameter guide portion 75 of
bolt 74 and supports a compression spring 84 extending between
guide tube plate 82 and drive slug 71. A pair of side drive legs 85
are keyed to drive slug 71 by recesses 86 formed in said legs 85
near one end thereof so that said legs 85 are adapted to move with
said drive slug 71. The side drive legs 85 have reduced portions 87
forward of said drive slug and terminate with inturned fingers 88
on the forward end portion. The reduced portions 87 slide in
grooves or guides 89 in the sides of guide tube plate 82. The
inturned fingers 88 on the side legs 85 pass through the guide
slots 51 in guide rails 50 with the cam members 52 engaging the
outside surfaces thereof (see FIG. 7). A bottom drive leg 90 is
keyed by recesses 91 to the drive slug 71 and is free to slide in
slot 92 in the guide tube plate 82. The forward end of bottom drive
leg 90 has a pair of bifurcated fingers 93 spaced apart by a slot
94. As shown in FIG. 8, the forward end surfaces 95 of the fingers
93 are partially sloped or tapered at 96 at an angle equal to the
angle of orientation of the magazine 42 to the drive tube 32 so as
to permit brackets 16 to pass from the stack into position ready to
be driven into a stud or the like. The forward end surfaces 95 of
drive leg 90 extend a short distance rearward of the ends of side
drive legs 85, 85 and contact the bracket 16 slightly ahead of the
contact from side legs 85, 85 so as to unstack the bottom bracket
16 and start it forward for seating.
In operation, the tool has a stack 30 of brackets 16 dropped in the
magazine 42 after the cover 55 is opened and the retainer 62 is
rendered inoperative. The prongs 24 on the bracket 16 project
forward and lie generally parallel to the axis of the drive tube.
The bottom bracket 16 in the stack 30 drops down to a position with
the dimple 26 in opening 40 between the tabs 38 and the body 22 of
the bracket rests on the bottom wall 39 of the tube 32. The lower
edges of the top wall 45 of the magazine 42 align with the open
space between the two bottommost brackets 16 (FIG. 5). The hammer
14 is provided with a cap 97 around the head thereof. The cap 97 is
made of a tough material designed to prevent the adverse effects of
metal-to-metal contact between the hammer and the drive lug 78. The
hammer cap 97 is adapted to strike either the lug 78 or the cap 79
seated on said lug 78. Spare caps 97 and 79 are provided for easy
replacement after extensive use of the device.
The tabs 38 are engaged against a stud 12 (FIG. 1) and the hammer
is wielded to administer a sharp blow to the cap 79, head 78 and
drive bolt 74. The drive bolt 74 drives the drive slug 71 and
associated drive legs 85, 85, 90 forward. Drive leg 90 will contact
the bracket 16 first and start it forward whereupon drive legs 85,
85 will have the inturned fingers 88 cammed inward by the cam
members 52 and will have the ends of the fingers 88 assume a drive
attitude in relation to the back of the web 20 of the bracket prior
to resistance of the bracket entering the stud. The bottom drive
leg 90 has the surface 95 of fingers 93 engaging the back edge of
the body 22 of the bracket slightly ahead of contact by the fingers
88 of the side legs. Said slightly early contact by leg 90 serves
to shear the bottom bracket 16 from the stack 30. After the initial
contact by the leg 90 continued movement of the drive mechanism
will bring the two side drive legs 85, 85 in position with the
fingers 88 against the struck portions 28 on web 20 to drive the
bracket into the framing member. The drive mechanism 70 will be
returned to the retracted position (FIGS. 3, 5, 6) by the spring 84
with the sleeve 80 absorbing some of the rebound force to prevent
hammering the rear ends of the drive legs 85, 85 and 90 against the
end cap 34 of the tube 37. The drive legs 85 will be returned to a
position parallel to the sides of the drive tube with fingers 88
expanded sidewardly from the driving position as the drive
mechanism retracts. Due to the sloping front edge 96 of the bottom
drive leg fingers 93, the stack 30 with the next bracket 16 will
drop down into position ready for the next blow of the hammer when
the tool 10 has been moved to another position on the stud.
The threaded members 56 serve to secure the magazine 42 to the
drive tube 32 and at the same time acts as the pivots for the cover
55 on the magazine. This construction simplifies assembly and
reduces costs. When the device is used for overhead plates, it is
possible for the stack 30 to bear against the inside cover 55. The
edge 47 of opening 44 is sloped to provide a guiding surface for
the brackets past said opening 44 without hanging up and becoming
inoperative by reason of no bracket being in position to be driven
into a stud.
* * * * *