The present invention is a tool with the actual shape and size of a portion of a stair stringer. The present invention also has an adjustable feature, which allows the calculated dimension of rise to be set and secured. The said adjustable feature is adjusted by sliding Part #1 into Part #5, using increments labeled #4 on said present invention. Then secure by tightening Screw #14 to hold Part #1 secure to Part #5. The said present inventions function is to simplify and speed up the process, whereby said stair stringers are layed out ready for cutting to final shape.
This present invention is a carpentry tool used for the complete layout of stair stringers. The said tool relates to the performances of other tools such as the L-shaped framing square, multipurpose square, speed square, and various other tools.
Various devices have been designed in the past to perform the task of laying out stair stringers, but none are as fast and simple as this present invention.
The L-shaped framing square is the most universally recognized tool for performing this task. When using said tool for layout of stair stringers, its use requires the user to align two marks of measurement, one on each leg of the tool. This is often a somewhat clumsy method of operation, for after one number is aligned and when the other leg is moved to align the second number, it often causes the first leg to shift off position, making it necessary to realign a second and sometimes a third time. The said tool also must be spun multiple directions for final layout marks, which can be confusing to the novice craftsman.
Triangular shaped squares such as U.S. Pat. No. 4,742,619 to Swanson, commonly known as “speed squares”, are simply too short for accurate layout increments pertaining to stair stringers.
The multipurpose square U.S. Pat. No. 5,727,325 Barry d Mussell, has the problem of being too short for layouts of stair stringers made to receive 2″×12″ treads. It also has an edge on the handle that projects out from the faces of body, making it extremely difficult to get accurate markings needed for said layouts.
From the operational descriptions and drawings of this present invention, it becomes evident that the said invention in the embodiments shown by
Many prior art squares perform a variety of specialized functions, however, none of them are able to execute the process of stair stringer layout as fast and effectively as this present invention.
It is the object of the present invention to overcome the shortcomings of the prior art squares and the more traditional methods of laying out a stair stringer. Whereby, the said present inventions unique shape, which is likened to the actual shape of a stair stringer, gives said present invention a simpler, faster, and more accurate method of layout.
A template guide 1A, one embodiment of the present invention is illustrated in
(Note: outdoor stairs allow for stair stringer to be 1½″ below ground, indoor stairs, the 1½″, must be subtracted from actual height dimension of bottom riser and marked accordingly for final level mark, at bottom of said stair stringer). Once this final layout is completed, said stair stringers are ready to be cut to final shape.
This present invention can be either laser cut out of various materials, such as, aluminum, steel, etc. or made by injecting plastic into an injection mold.
The right and left male tongues, a part of the present invention, protrude from the end of the smaller section of two sections that form the present invention. Labeled #1 on the drawings 1-6.
The increments for top tread allow user to identify measurements on said tread. Labeled #2 on drawings 1-6.
The pivot point located on left ty's of the smaller section may be positioned on top edge of material. Then by rotating the present invention upward from the left side of the present invention, while holding the said pivot point, securing a new measurement for tread may be established if user desires the tread of stringer measurement be less than 11¼ inches. Labeled #3 on drawings 1-6.
The increments for adjusting rise are measurements allowing rise to be established between 6 inches and 7¾ inches. Labeled #4 on drawings 1-6.
The right and left sleeves are grooved recipients located at end of larger section of present invention and are imperative parts for joining of present invention. Labeled #5 on drawings 1-6.
The riser indications are labels to indicate the rise of stair stringer. Labeled # 6 on drawings 1-6.
Increments for bottom and middle treads allow user to identify measurements on middle or bottom treads. Labeled #7 on drawings 1-6.
Increments for bottom riser are measurements so user can mark proper height of bottom riser of stair stringer. Labeled #8 on drawings 1-6.
Instructions are a step by step method for use of present invention. Labeled #9 on drawings 1-6.
Label for bottom riser indicates the bottom rise of stair stringer. Labeled #10 on drawings 1-6.
Label for bottom and middle tread identifies one part of present invention. Labeled #11 on drawings 1-6.
Instruction for use of middle riser indicates this portion of stair stringers are continued down length of material. Labeled #12 on drawings 1-6.
Label for top tread signifies to user the first step of stair stringer. Labeled #13 on drawings 1-6.
Set screw for securing tongue to sleeve at desired dimension of stair stringer. Labeled #14 on drawings 1-6.
Number | Name | Date | Kind |
---|---|---|---|
164008 | Kirkpatrick | Jun 1875 | A |
341126 | Boyer | May 1886 | A |
493048 | Van Alstine | Mar 1893 | A |
539534 | McKinney | May 1895 | A |
796030 | Baumgartner | Aug 1905 | A |
858431 | Wiegmann | Jul 1907 | A |
947422 | Sherry | Jan 1910 | A |
1006815 | Wiegman | Oct 1911 | A |
1527647 | Heinen | Feb 1925 | A |
3478434 | Catalano | Nov 1969 | A |
4742619 | Swanson | May 1988 | A |
4833791 | Campbell | May 1989 | A |
4882846 | Reed | Nov 1989 | A |
5388340 | Marty | Feb 1995 | A |
5440818 | Mailhot | Aug 1995 | A |
5692357 | McCain | Dec 1997 | A |
5727325 | Mussell | Mar 1998 | A |
6260283 | Abernathy et al. | Jul 2001 | B1 |