[0001] The present invention relates to fastener driving tools. More precisely, the present
invention relates to improvements in the operation of fastening wires by stapling.
[0002] The present invention discloses an improved method to guide staples around wires.
Staple guns are well known as a tool for fastening paper, cardboard, or similar thin
materials to wood or other substrates. An additional application for staple guns is
to hold electrical wires or similar items in place. The staple is installed over and
around the wire. Typically staple guns are effective for only one or the other application.
Wire staplers have a notched extension downward from the front end to position the
staple over the wire. This feature however prevents the staple from seating flush
when used for ordinary materials. A separate standard staple gun is required for that
purpose.
[0003] US patent 2,668,290 to Heller, shows a typical staple gun designed for tacking wires.
Recess 102 is surrounded by extensions 64 (Fig. 8). The extensions prevent crushing
a wire while also preventing flush seating of a staple. Extensions 64 are part of
removable cover 24. It would be possible to exchange cover 24 for an equivalent additional
component that had no notch and no extensions to enable flush stapling. However this
would not be convenient.
[0004] US patent 4,552,296 to Wang Sheng, shows a separate "adjustable wire attachment".
This attachment can be moved downward to provide the required extension for guiding
staples over wires. The attachment is around the front exterior of the tool and adds
substantially to the bulk of the device. To make the device more reasonably compact
it could be anticipated that a user who only occasionally tacks wires would remove
the attachment and then not have it available when needed.
[0005] Other removable wire guide attachments are also well known in the retail market.
[0006] US patents 2,137,642 and 3,265,278 show staple guns where a front cover can be pivoted
outward to access the interior of the tool body.
[0007] A desirable improvement would be to have a wire guide feature which is permanently
built into the structure of the staple gun but does not increase the external bulk
of the tool nor substantially the cost. It is also desirable that the wire guide can
be extended and retracted quickly.
[0008] Standard staples have a flat crown to hold materials down. Special wire staples have
rounded crowns to better fit a rounded wire. The staples or the staple gun may be
designed so that either type of staple can be used in the same tool. Such staple guns
are readily available. Whether one or the other format staple is chosen, a wire guide
provides the same utility.
[0009] In the present invention an extendible wire guide is slidably fitted at the front
of a staple gun tool housing. A tab or similar operating device is linked to the wire
guide to enable the wire guide to be deployed or retracted. A detent engages the tab
or wire guide to hold the wire guide in position. In a preferred embodiment the wire
guide is immediately adjacent to, and in sliding contact with, the plunger element.
[0010] Although the preferred embodiment wire guide is contained entirely within the tool
body and latched by a detent action, variations are possible that retain the essential
advantages of the present invention. In a one variation a wire guide may be exposed
on the exterior of the tool body but well fitted so as to be an integral element of
the device. The wire guide according to this variation would remain supported or enclosed
by the tool body along a substantial portion of at least some edges or surfaces.
[0011] Within the possible variations, the focus of the present invention is an extendible
wire guide fitted to a staple gun tacker in such a way that the wire guide elements
are a permanent and not readily separable part of the staple gun. A detent or cam
type latch secures the wire guide in position.
In the Drawings:
Figure 1 is side elevation, partly in section, of a staple gun showing an extended
wire guide;
Figure 2 is a front elevation of a staple gun body with the wire guide of Figure 1
extended;
Figure 3 is a side elevation of the staple gun of Figure 1, with the tool rotated
180° to show the opposite side;
Figure 4 is a detail view of a portion of a staple gun body with the wire guide of
Figure 1 in a retracted position;
Figure 5 is a side, a front and a top elevation of the wire guide of Figure 1;
Figure 6 is a side and a front elevation of a slide switch to extend and latch the
wire guide of Figure 5;
Figure 7 is a front elevation of a staple gun housing showing an alternate embodiment
wire guide, partly in phantom, with the wire guide in respective retracted and extended
positions;
Figure 8 is detailed views of the wire guide of Figure 7 including side, front and
top elevations; and
Figure 9 is a side elevation of a rearward action staple gun with the wire guide of
Figure 1 extended.
[0012] Figures 1 and 3 show the invention as part of a forward action staple gun tool. Figure
9 shows the invention in a rearward action staple gun. Other staple guns including
pull-up handle style and electric tackers could be designed with the wire guide of
the present invention.
[0013] Figure 1 shows the exemplary elements of one embodiment of the invention. The embodiments
of Figs. 1 and 9 are especially suited for a tool where housing 10 is molded of a
plastic material such as polycarbonate. Handle 90 is pivotably attached to housing
10. Track pull 20 operates a staple feeding guide track, not shown, to load fasteners
into staple chamber 15. Staples are biased toward wire guide 30 at the front of chamber
15. A plunger 18 slides within guide slots 17.
[0014] Wire guide slot 13 and extension 12 of housing 10 help to slidably hold wire guide
30 within housing 10. In the illustrated embodiment of Figures 1 to 6 wire guide 30
has a sharp cornered "U" channel shape. A front most staple within chamber 15 presses
the interior of wire guide 30. The plunger ejects this front staple downward out of
the tool. The bottom portion of the plunger is guided by the three interior surfaces
defined by the "U" shape of wire guide 30. In this embodiment the wire guide serves
the additional functions of a conventional nose piece. In conventional designs a cover
or front end piece is used to position the plunger and staples in the ejection area.
It is one innovation of the present invention that an internal front end piece can
also serve as an extendible wire guide.
[0015] Recess notch 32 provides clearance for wires. Tab 34 engages slide switch 40 at slot
46 so that sliding switch 40 front to back causes wire guide 30 to move up and down.
The features of switch 40 are best seen in Figure 6. Slot 46 includes a wide lower
portion defined at notch 44. Notch 44 is a substantially horizontal edge of slot 46
to serve as a stop for tab 34 of wire guide 30. When switch 40 is in the forward position
and wire guide 30 is extended, as in Figure 1, notch 44 prevents upward force on wire
guide 30 from forcing switch 40 backward. More than one notch 44 could be provided
to allow multiple extended positions of the wire guide. Normal use of a staple gun
involves pressing down on the front end of the tool even in a conventional rearward
action type tool as in Fig. 9. It is therefore important that a wire guide of any
design be able to resist this force. In case switch 40 slides loosely along chamber
15, detents 49 may be included. Detents 49 engage movable tab 19 where tab 19 may
be an element of housing 10. Alternately switch 40 may slide with sufficient friction
such that vibration and gravity will not unintentionally move switch 40. Tab 42 is
exposed outside of chamber 15 through opening 16 (Figure 3). A user moves tab 42 forward
or backward to extend or retract wire guide 30. The function of tab 34 and slot 46
may be reversed so that wire guide 30 has a slot engaged with a tab of switch 40.
[0016] The embodiment described above is best for a plastic bodied tool since switch 40
absorbs the concentrated loads of tab 34. Wire guide 30 used alone would cause tab
34 to wear into a plastic material.
[0017] Figures 7 and 8 show an alternate embodiment wire guide. In contrast with the previous
embodiment, wire guide 130 is a single component and locks against the housing directly.
Wire guide 130 is best suited for use in a metal bodied tool, or where at least the
front end of the tool is metal.
[0018] Tab 143 engages detent notches 144 of housing 10. Extension 142 is accessible to
a finger to be pressed inward to disengage tab 143 from notch 144. Wire guide 130
can then be slid up and down to extend and retract wire guide 130. Arms 119 of wire
guide 130 flex to allow inward motion of tab 143. A pair of notches 144 is at the
top and bottom of opening 112 in housing 10 to lock wire guide 130 in either the up
or down position. Additional notches may be included to provide more than two positions.
However just at least one lower notch is required to lock wire guide 130 in the lower
position since friction may hold it in the upper position. Recess 132 fits over a
wire.
[0019] Preferably wire guide 130 is immediately in front of, and in sliding contact with,
the plunger, not shown, so that the assembly including wire guide 130 is compact.
Wire guide 130 then serves as the limiting front face of staple chamber 15 as described
above for wire guide 30. In a further variation wire guide 130 could have a "U" shaped
section similar in function to that of wire guide 30.
[0020] It is not necessary that the movable element of the detent action comprise flexible
arms 119. For example a further movable or flexible element of the tool assembly may
engage a detent feature of wire guide 130.
[0021] In a further embodiment wire guide 130 could be in a guide slot of housing 10 separate
from the guide slot for the plunger. A different element than wire guide 130 would
then be the front face of chamber 15.
[0022] The utility of the present invention is not limited to forward action staple guns.
As shown in Fig. 9, the wire guide of the invention may be included as part of a conventional
rearward action staple gun. An electric staple gun could also support the wire guide
of the present invention.
[0023] A further alternate embodiment of the invention is a wire guide that is exposed at
least partially to the exterior at the front of the tool body. It is not required
according to the invention that the wire guide be fully confined within the housing.
To function as a permanent component of the staple gun the wire guide is held securely
and compactly at the front of the tool body in a slidable relationship with the tool
body. Vertically extending slots or ribs fix the wire guide slidably to the housing.
In the case of Fig. 1, slot 13 serves this function. In the case of Fig. 7, a slot
and rib feature adjacent to or coincident with slot 17, seen in Fig. 1, positions
the wire guide. According to the present alternate embodiment equivalent slots or
ribs may be on the exterior of the housing body. The wire guide may then be elongated
along the exterior front of the housing where the slots or ribs provide an elongated
support to slidably fix the wire guide to the housing.
[0024] To slide without wobble or binding the wire guide is elongated vertically. The wire
guide further has a means to secure it in a selected vertical position. A detent latch
is the most compact means for securing the wire guide. An eccentric wedging type cam
could also secure the wire guide. In this design a pivoting lever or similar member
is rotated about a fixed pivot so that a cam of the lever, directly or through a further
member, progressively presses a surface of the wire guide to lock the wire guide in
position. A screw or nut device also may secure the wire guide.
1. A fastening tool to attach wires to a substrate with fasteners driven by impact blow
comprising:
a housing body including a front, a rear, a top and a bottom;
a fastener guide track attached to the housing near the bottom thereof, to guide fasteners
toward the front of the housing;
a plunger located at the front of the housing body, the plunger oriented to expel
objects at a front of the fastener guide track out of the fastening device;
a wire guide slidably fitted within a slot at the front of the housing, the wire guide
able to move vertically between an upper vertical position and a lower vertical position,
the lower vertical position including a portion of the wire guide protruding downward
out of the bottom of the housing body at the front of the housing body;
a switch slidably fitted within a chamber of the housing body, the switch able to
move horizontally between a rear position and a front position;
the switch linked to the wire guide wherein moving the switch horizontally causes
the wire guide to move vertically;
a locking element to secure the wire guide in the lower vertical position.
2. The fastening device of claim 1, wherein a tab of the wire guide extends through an
angled slot of the switch, and moving the switch causes an edge of the angled slot
to slidably press the tab of the wire guide, whereby the wire guide moves downward.
3. The fastening device of claim 2, wherein an edge of the slot includes at least one
horizontal segment, and the horizontal segment is immediately above the tab when the
wire guide is in the lower vertical position, and when the wire guide is pressed upward
the tab presses the horizontal segment.
4. A fastening tool to attach wires to a substrate with fasteners driven by impact blow
comprising:
a housing body including a front, a rear, a top and a bottom;
a fastener guide track attached to the housing near the bottom thereof, to guide fasteners
toward the front of the housing;
a plunger located at the front of the housing body, the plunger oriented to expel
objects at a front of the fastener guide track out of the fastening device;
a wire guide slidably fitted within a slot at the front of the housing, the wire guide
able to move vertically between an upper vertical position and a lower vertical position,
the lower vertical position including a portion of the wire guide protruding downward
out of the bottom of the housing body at the front of the housing body;
the wire guide including at least one wire guide detent element able to be selectively
engaged with at least one housing detent element such that the wire guide is secured
in the lower vertical position against an upward force applied to the wire guide.
5. The fastening device of claim 4, wherein the wire guide is elongated vertically and
is oriented substantially in a parallel relationship with the plunger.
6. The fastening device of claim 1 or claim 5, wherein the wire guide is immediately
in front of the plunger and in sliding contact with the plunger.
7. The fastening device of claim 6, wherein the wire guide has a "U" shaped transverse
cross section, and the wire guide partially surrounds the plunger.
8. The fastening device of claim 1 or claim 4, wherein the wire guide has a bottom edge,
and the bottom edge has a recess notch.
9. A fastening tool to install fasteners by impact blow comprising:
a housing body including a front, a rear, a top and a bottom;
a fastener guide track attached to the housing near the bottom thereof, to guide fasteners
toward the front of the housing;
a plunger located at the front of the housing body, the plunger oriented to expel
objects at a front of the fastener guide track out of the fastening device;
a wire guide slidably fitted at the front of the housing, the wire guide able to move
vertically between an upper vertical position and a lower vertical position, the lower
vertical position including a portion of the wire guide extending downward from the
bottom of the housing body at the front of the housing body;
the wire guide being elongated vertically, wherein elongated vertical surfaces of
the wire guide are slidably constrained by contact with vertically extending slots
or ribs of the housing body;
the wire guide being oriented substantially in a parallel relationship with the plunger;
the fastening device including a locking element whereby the wire guide is held in
the lower vertical position by the locking element against an upward force applied
to the wire guide.
10. The fastening device of claim 9, wherein the wire guide has a bottom edge, and the
bottom edge has a recess notch.
11. The fastening device of claim 9, wherein the locking device comprises a detent notch.
12. The fastening device of claim 11, wherein a flexible element of the fastening device
engages the detent notch.
13. The fastening device of claim 9, wherein the locking device comprises a lever attached
to a cam, and rotating the lever causes the cam to press the wire guide in a frictional
locking engagement.
14. The fastening device of claim 9, wherein the locking device comprises a screw or nut
fastener, and tightening the screw or nut presses the wire guide in a frictional locking
engagement.