Hand tool for hanging pictures

A measuring tool which allows for a quick, accurate determination of the appropriate position to hang a hook or similar hanger on a wall for supporting a picture or similar object. The tool includes horizontal and vertical legs and a sliding member that moves along the vertical leg. When the horizontal leg is positioned adjacent the top edge of an object, the sliding member may be moved to pinpoint the vertical location of the hanging mechanism relative to the top edge of the object.

BACKGROUND OF THE INVENTION 
The present invention relates to a hand tool that is used for measuring. 
Among other measuring tasks, the tool is particularly well-suited for 
making the measurements required for hanging picture frames. It is common 
for the hanging mechanism of a frame to be simply a wire that is attached 
to either side of the frame. Alternatively, a loop or serrated surface may 
be fixed to the frame for accommodating a hook. Regardless of the hanging 
mechanism used, the position of the hanging mechanism on the back surface 
of the frame makes it difficult to accurately determine where the 
corresponding hook should be positioned on a wall. Compounding the 
problem, the vertical distance between the top of a frame and its hanging 
mechanism varies widely from frame to frame. 
There have been some attempts in the prior art to devise a tool that can be 
used to locate the appropriate position on a wall for a hook or similar 
hanger. These devices, however, are often cumbersome and still require 
some degree of manual measurement, limiting their accuracy. 
SUMMARY OF THE INVENTION 
The present invention is a tool that allows for a quick, accurate 
determination of the appropriate position to hang a hook or similar hanger 
on a wall for supporting a picture or similar object. The tool includes 
horizontal and vertical legs that are fixed relative to one another to 
create a T-shaped device. The tool further includes a sliding member that 
moves along the vertical leg. When the horizontal leg is positioned 
adjacent the top edge of a frame or other object, the sliding member may 
be moved to pinpoint the vertical location of the hanging mechanism 
relative to the top edge of the object. Once this position is found, the 
sliding member is locked in place. The object is then set aside, and the 
tool is placed adjacent a wall. The horizontal leg represents the position 
of the top of the object, and the sliding member indicates the appropriate 
position for placement of the hook or hanger. The measuring device of the 
present invention is also suited for a variety of other measuring tasks.

DESCRIPTION OF THE PREFERRED EMBODIMENTS 
FIGS. 1-6 show a preferred embodiment of the present invention, a measuring 
tool 10 that is particularly useful in hanging frames or similar objects. 
Referring now to FIGS. 1 and 5, the preferred tool 10 has a substantially 
flat horizontal leg 12 and a substantially flat vertical leg 18. The 
substantially flat forward surface of the vertical leg 18 lies in the same 
plane as the substantially flat forward surface of the horizontal leg 12 
and extends downwardly from the bottom edge 14 of the horizontal leg 12 to 
form a T-shape. The tool 10 also includes a lip 20 that extends outwardly 
in the forward direction from the top edge 16 of the horizontal leg 12, as 
best shown in FIG. 5. 
In this preferred embodiment, the tool 10 defines a slot 22 that extends 
along the length of the vertical leg 18 to nearly the top edge 16 of the 
horizontal leg 12. The vertical leg 18 is thus comprised of two parallel 
rails 18A and 18B which are separated by the slot 22. The slot is closed 
at the bottom end of the vertical leg 18 by an end cap 24 which fits over 
the two rails 18A, 18B. 
Mounted in the slot 22 is a sliding member 26. In this preferred 
embodiment, the sliding member 26 is comprised of first and second 
parallel plates 28, 30 that are joined by a hinge 32. The width of the 
hinge 32 is slightly less than that of the slot 22, whereas the width of 
the plates 28, 30 is greater than that of the slot 22. Thus, as best shown 
in FIGS. 2 and 6, the sliding member 26 is positioned in the slot 22 such 
that the first parallel plate 28 abuts the front surface of the rails 18A, 
18B of the vertical leg 18, and the second parallel plate 30 abuts the 
rear surface of the rails 18A, 18B. The hinge 32 fits between the rails 
18A, 18B, thereby allowing the sliding member 26 to move freely up and 
down the slot 22. 
To lock the sliding member 26 at a selected vertical position along the 
rails 18A, 18B, in this preferred embodiment, the sliding member 26 
further includes a threaded stud 34. The threaded stud 34 preferably is 
integral with the first plate 28 and extends from the first plate 28 
through a hole 36 defined by the second plate. A wing nut 38 is then 
fitted to the threaded end of the stud 34. When this wing nut 38 is 
tightened, the first and second parallel plates 28, 30 are pressed toward 
each other and against the respective front and rear surfaces of the rails 
18A, 18B. Teeth 39 on the front and rear plates 28, 30 create enough 
friction with the rails 18A, 18B to lock the sliding member 26 in place 
when the wing nut 38 is tightened. 
So It is important to note that the hinge 32 must be flexible, so that the 
plates 28, 30 will not remain pressed against the front and rear surfaces 
of the rails 18A, 18B once the wing nut 38 has been loosened. It is thus 
preferred that the plates 28, 30 and hinge 32 are a unitary body of molded 
plastic. The teeth 39 are also formed in the molding process. 
In using the tool 10, the sliding member 26 is locked in place to indicate 
the vertical position of a point relative to the top edge 16 of the 
horizontal leg 12. For assistance in pinpointing the precise vertical 
location of a point, the sliding member 26 preferably defines a notch 40, 
as shown in FIG. 1. Although not shown, graduated markings may also be 
included on the vertical rails 18A, 18B to quantify the vertical position 
of the sliding member 26 relative to the top edge 16 of the horizontal leg 
12. 
FIGS. 3 and 4 show a preferred use of the tool 10 in accordance with the 
present invention. As shown in FIG. 3, the measuring tool 10 is positioned 
adjacent the rear surface of a picture frame 42 such that the lip 20 of 
the tool 10 rests on the top surface 42A of the frame 42. In this 
particular example, the frame 42 is to be hung using a wire 44 that is 
attached to either side of the frame 42. The wire 44 is pulled taut to the 
position it will be in when the frame 42 is hung. The sliding member 26 is 
then moved to the apex of the wire 44 and locked in position using the 
wing nut 38, as described above. The tool 10 is then removed from the 
frame 42. It is positioned adjacent the wall 46 upon which the frame 42 is 
to be hung, with the top edge 16 of the tool 10 placed in the position 
where the top edge 42A of the frame 42 is to be located. As shown in the 
Figures, the preferred tool 10 also includes both horizontal and vertical 
leveling bubbles 48, 50 to make sure the tool 10 is level when it is 
placed against the wall 46. The position of the sliding member 26 thus 
indicates the position a hook or similar hanger should be mounted to 
support the frame 42. 
Although in the described example, the tool 10 was used in hanging a frame 
having a wire hanging mechanism, the present invention is not so limited. 
The tool 10 can be similarly used to pinpoint the appropriate location for 
mounting a hook to accommodate a loop or serrated surface for supporting a 
frame or other object. The tool 10 can also be used simply as a measuring 
device for accurately determining the vertical distance between a point 
and a horizontal edge, and may be used as a guide for cutting linoleum or 
for other measuring tasks. 
It will be obvious to those skilled in the art that modifications may be 
made to the embodiment described above without departing from the scope of 
the present invention.