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a. Field of Invention
This invention pertains to a tool kit used during the installation of roofing tiles, shingles or other similar materials. The tool is used to lay a whole or partial course of tiles on alignment and then affixing the tiles to the roof. The tool kit may also be used to install exterior materials such as siding.
b. Description of the Prior Art
The act of laying tiles or shingles on a slanted roof is still a manual operation that is time consuming and labor intensive. Typically, a roofer places each tile on the roof and nails it before laying then next tile. Since the roof is slanted, during this operation, the tile must be hand-held to insure that it does not slip off and break, and/or injure a bystander.
Attempts have been made in the past to provide tools that can assist in this process, or even automate the process. Attempts have also been made to provide a tool useful for aligning the roofing tiles. Some samples of these prior art designs are found in the following patents:
However, none of these patents provide a satisfactory and inexpensive solution to the problems.
Thus there is a present need for a simple, easy to use tool that can be used to install a plurality of roofing tiles (or other similar roofing materials) quickly and easily. Preferably this tool should also be capable of aligning the tiles. Once a course, or a portion of a course is laid, it is desirable that the tool be easily removed. Moreover, it is also desirable to have a tool that can be expanded to install tiles on two roofing surfaces in a single operation wherein the roofing surfaces form an interior angle.
Briefly, a roofing tool for laying courses of roofing tiles on a roof includes a rail defining a straight edge for aligning the tiles of a course; and a plurality of arms extending perpendicularly upwardly of said rail and attached thereto, each said arm having a length exceeding by a predetermined amount the length of the tiles of the respective course, said arms being constructed and arranged to support said rail on the roof. Preferably, the arms have a length of about 4-18 in above the lengths of the tiles. Each said arm has a lower portion with an end attached to the rail and a length approximately equal to the lengths of the respective tiles. Each arm also has an upper portion colinear and laterally offset from said lower portion, said upper portion including securing means, such as one or more holes, for securing said arms to the roof. The arms have one end attached to said rail.
In one embodiment, the arms and the rail are coupled by a joint that allows said arms to move longitudinally along said arm.
In another aspect of the invention, a plurality of joints are provided, each joint connecting one of said arms to said rail, wherein said arms are slidable with respect to said rail. Preferably, the joints allow the arms to pivot with respect to the rail for easy storage.
A skirt is attached to and extending substantially along the length of the rail to provide cushioning as each tile is installed.
Another aspect of the invention pertains to a roofing tool kit for installing several types of tiles in courses on a roof with a roofing deck, each type of tile having a different dimension. The kit includes a rail adapted to define straight edges for said courses; a plurality of sets of arms, each set of arms being sized to fit over a corresponding type of tile; and a plurality of knobs for coupling one of said sets of arms to said rail in a spaced relation along said rail, said rail and said one of said sets of arms cooperating to position said rail along a previous course of tiles and to define a straight edge for a present course of tiles with said arms extending from said rail, over said present course of tiles and terminating with an end just beyond said present course of tiles said termination being secured to the roof decking.
Preferably, the knobs are constructed and arranged to pivotably mount said arms on said rail. A slider may be provided for selectively coupling said rails in a colinear relationship. Alternatively, a connector for connecting said rails at an angle to each other. The connector includes a skirt for cushioning the tiles.
The tool kit may be used to install other exterior coverings, such as shingles and other similar siding material.
The roofing tool described below is useful for installing tiles on a slanted roof. The term ‘tile’ is used to any suitable roofing material, such as clay tiles, slate tiles, wood shingles, Spanish tiles (having curved or wavy cross-section), etc.
Referring first to
Rail 12 can be made to be about 4-8 feet long. The channel 16 can be made of a metal such as aluminum or an aluminum alloy and can be extruded. The channel could be about 1 in wide and 1 in thick.
The skirt 24 attached to the channel 16 can be made of rubber or other flexible material. The web is preferably about 2″ wide. Its collar 28 fits into and is captured by the secondary channel 22 (using an interference fit or an adhesive) so that it does not move or slide longitudinally with respect to the channel.
Arm 14 shown in detail in FIGS. 2. It is made of aluminum, steel or other similar material and it includes two straight portions: a lower portion 32 and an upper portion 34. The lower portion is formed at its end with a hole 36 for mounting arm 14 to the rail 12, as discussed in more detail below. The upper portion 34 is formed with one or two holes 38. The two portions 32, 34 are joined by an angled section 41. The arm 14 may be ½-¾ in wide and about ¼ in thick.
Each arm 14 is attached to the rail 12 by a knob 40. The knob includes a slider 42 (shown in detail in
The installation of tiles on a roof using tool 10 is now described in conjunction with FIG. 2. Typically, the roof of a building, prior to tiling, consists of a wood deck 100. The process of roofing consists of installing several overlapping of tiles on the wood deck 100. In
With the tool 10 in the position described, the tiles of the next course 108 are placed on top of course 106. The lower portion of each of these tiles rests on the web of the skirt 24, and against the rail, which thus forms a straight edge for the course. A workman places each tile in sequence along the rail 12 from left to right, or right to left until the course 108 is complete. The tiles are kept in place by the rail 12. When the whole (or a portion) of the course is complete, the workman secures the tiles to the deck 100 with nails 112. During this whole process, the workman does not have to hold the tiles in position since they are held and automatically aligned by the rail 12. The skirt 24 cushions the tiles to insure that they do not crack or chip.
The length of arm portion 32 is equal approximately to the length of the tiles forming the respective course plus 1 in, so that the tiles can be laid without interference with the arm. The arm portion 34 can be about 2 in longer than the exposure The two portions 32, 34 are offset by angled portion 41 by a distance sufficient to insure the clearance for the tiles. This offset between the two arm portions can be made smaller for thinner tiles (such as slate tiles) and larger for thicker tiles (such as wooden shingles).
Once the tiles of a course are secured, the tool 10 is separated from the deck 100, for example by removing the nails 110. The tool is then moved slightly downward to pull the skirt out from under the tiles of course 108, and the tool is placed with its ready for laying the next course.
As discussed above, preferably, the rail has a length of 4-8 feet for easy transportation and storing. Of course many roofs are much longer than that. For this purpose a composite roofing tool is used formed of two or more rails similar rail 12, each rail having its own a set of arms 14. For this purpose the rail 12 is provided at its ends with additional sliders 42A that extend out of the passage 18 and can be telescopically received by an adjacent rail 12 to insure that the rails are properly aligned with each other. The sliders 42A may be supported on one of the rails 12 by a knob 40A.
Some houses have several roof sections which meet at respective angles. For these types of roofs a composite roofing tool 150 is used as indicated in FIG. 6. Tool 150 includes two rails 12, each having its arms 14 and skirt 24. A curved connector 152 is used to couple and align the two rails 12. The connector is formed with a flexible hollow tube 154 that can follow the curvature of a roof corner (not shown) and easily match its curvature. As seen in
In one alternate embodiment shown in
In a second alternate embodiment shown in
The arm 266 includes a first portion 270 and a second portion 272. The second portion 272 may be similar to the portions 234 and 254. In one configuration, the two portions are coupled to each other by a hinge 274 formed of a boss 276 and a pin 278.
The portion 270 is formed of two bars 280 and 282. The two bars are held together with two sleeves 284, 286. Screws 288 in these sleeves are used to keep the arm steady and secure by insuring that there is minimal play between the bars. Sleeve 284 also has a spring loaded plunger 290. The plunger passes through one of several axially spaced holes 292 in the arms. The overall length of the portion 270 is adjusted by pulling the plunger 290 out, shifting the bars longitudinally with respect to each other until a new hole 292 is reached and then reseating the plunger 290 in the new hole. Importantly, the arm 266 may also be adjusted to extend further away from the rail 12. This is accomplished by providing a spacer sleeve 294 and a longer screw 296 for the handle 268, shown in FIG. 11G. In addition, the two portions 272, 274 are further separated by a triangular spacer 296. The spacer 296 is coupled to the portions 272 and 274 by hinges 274, 274A and has a flat part 297 that is used to further secure the spacer 296 to the portion 270 by a thumb screw 298, as shown in FIG. 11B.
An advantage of the tool described herein is that it can be used with the appropriate parts to install various types of roofing materials. For example,
The tool and its various attachments and implements was described so far is particularly suited for installing roofing materials. However, the same tool may also be used for installing covering for the external walls of a structure, such as aluminum or other type of siding. As shown in
The tool can be sold with a rail 12 and a set of arms 14, the arms having specific lengths and features for specific materials, as described. Alternatively, a tool kit can be sold that includes the rail 12, several types of arms 14, 250, 266, retainer 17, spacer 23, connectors, circular tubings, etc. Alternatively, these later components can be bought separately.
While the invention has been described with reference to several particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles of the invention. Accordingly, the embodiments described in particular should be considered as exemplary, not limiting, with respect to the following claims.
Number | Name | Date | Kind |
---|---|---|---|
253816 | Clark | Feb 1882 | A |
738256 | Tinklepaugh | Sep 1903 | A |
1989141 | Leonard | Jan 1935 | A |
2889632 | Longhi | Jun 1959 | A |
4473100 | Wheeler | Sep 1984 | A |
4484392 | DeFino et al. | Nov 1984 | A |
4785606 | Burton | Nov 1988 | A |
4860518 | Kingham | Aug 1989 | A |
5205103 | Burton | Apr 1993 | A |
5311670 | Tomoiaga | May 1994 | A |
5526577 | Nix | Jun 1996 | A |
5918439 | Metzer et al. | Jul 1999 | A |
6470646 | Bryant | Oct 2002 | B1 |
6705021 | Nadal et al. | Mar 2004 | B2 |
Number | Date | Country | |
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20040221467 A1 | Nov 2004 | US |