1. Field of the Invention
The present invention is directed toward an alignment device for positioning masonry elements when forming a masonry joint and toward a method of using same, and more, specifically, toward an alignment device having first and second arms for guiding a masonry string away from a first location to define a level line for building a masonry wall and toward a method of using same.
2. Description of Related Art
Using traditional methods, building structural joints, such as the corners of a building or similar structure, can be quite time consuming. To create a joint, an experienced or lead mason must use a level to build the corners (inside or outside) on the structure before other masons can build the walls between the corners. An eight block corner typically takes a lead mason about 45 minutes to an hour to build. Thus for a 4-man crew made up of a lead mason and three less senior masons, the less senior masons cannot begin work until at least two corners have been constructed by the lead mason. It would therefore be desirable to provide a method and apparatus that would allow masons of having less skill than a master mason to construct structural joints.
This and other problems are addressed by embodiments of the present invention, a first aspect of which comprises an alignment device for assembling a masonry joint that includes a main body configured to slidably engage a generally vertical support pole. The main body includes a first arm and a second arm projecting away from the main body, and the first arm defines a predetermined angle relative to the second arm. A reel assembly is mounted on the main body for supporting a reel of string, and the main body has a string guide between the reel assembly and the first arm for guiding a string from the reel to the first arm.
Another aspect of the invention comprises an alignment system that includes first and second support poles and an alignment device on each of the support poles. Each of the alignment devices includes a main body configured to slidably engage the first or second support pole. Each main body has a first arm and a second arm projecting away from the main body, and the first arm defines a predetermined angle relative to the second arm. A reel assembly is mounted on the main body to support a reel of string. The main body also has a string guide between the reel assembly and the first arm for guiding a string from the reel to the first arm. The string extends from the reel of string of the alignment device on the first support pole over the string guide, along the first arm of the alignment device on the first support pole and connects to the alignment device on the second Support pole.
A further aspect of the invention comprises a method of building a wall that includes steps of inserting first and second poles vertically into the ground at a first location and placing a first alignment device over the first pole and placing a second alignment device over the second pole. A reel of string is placed on the first alignment device, and the string is pulled from the reel of string along the first arm and to the second alignment device where it is attached. A masonry block corner is then built at each of the first and second poles.
Example embodiments of the present invention will be more fully understood from the detailed description given hereinbelow and the accompanying drawings, wherein like elements are represented by like reference numerals, which are given by way of illustration only and are not intended to limit the example embodiments.
The system 1000 includes a corner pole assembly 200 provided for each device 100. The corner pole assembly 200 includes a corner pole 210 on which the alignment device 100 is movably secured so as to slide up and down the pole 210 to build up the structural joint, and a pair of pole braces 230 attached to a corner pole brace 220 to secure the corner pole 210 in a vertical orientation at the corner of the building structure. The masonry string 75 is payed out from the reel assembly 150 of one alignment device 100 through alignment channels on the main body 100 and alignment arm 111, then is tightened and secured at the other alignment device 100 so as to provide a level line for building up the structural joint with masonry products 50, which can be brick or block products, for example. Of note, there is no need to actually build a corner as in the prior art before laying rows of masonry products; the system is installed and the masonry products can be laid immediately
Device 100 includes a main body 101 to which a string reel assembly 150 is attached thereto for paying out masonry string used in preparing a level line. The main body 101 may be composed of a resilient material such as polyvinyl carbonate (PVC), although other materials may be used, such as a medium or heavy gauge impact plastic like acrylonitrile butadiene styrene (ABS). ABS is an easily machined, tough, low-cost, rigid thermoplastic material with medium to high impact strength, and is a desirable material for turning, drilling, sawing, die-cutting, shearing, etc. PVC and ABS are merely two examples. Alternatively, main body 101 could be composed of other thermoplastic and thermoset materials that have characteristics similar to PVC or ABS, such as, for example, polypropylene, high-strength polycarbonates such as GE Lexan, and/or blended plastics.
Device 100 includes a masonry alignment guide 110 attached to the main body 101 at an upper end thereof. The masonry alignment guide 110 is provided to keep masonry products 50 such as concrete block and brick level and straight as the device 100 is moved up the corner pole 210 to build up the structural joint.
The alignment guide 110 comprises alignment arms 111 that extend at an angle from each other to mate to the building corner. Each alignment arm 111 includes one or more string guide alignment supports 112 extending above arm 111 along a top surface thereof. The alignment arm 111 may be composed of PVC plastic of another material such as ABS, polypropylene, GE Lexan, etc. The string guide alignment support 112 includes a groove or alignment channel 113 therein that receives and aligns the masonry string 75 as it is paid out from the reel assembly 150. Each alignment arm 111 additionally includes one or more viewing notches 114 between string guide alignment supports 112 to enable a user of the device to verify that the masonry product 50 is aligned with the masonry string 75.
The alignment guide 110 also includes an offset guide 115 at the intersection of the two arms 111. The offset guide 115 can be employed when using brick for job such as building a corner accent (sometimes referred to as a “Cowen corner”) and bands that encircle a residential building. Each alignment arm 111 includes a Support brace 116 which has a string keeper 117 therein. The string keeper is embodied as a notch or slot and is designed to hold the masonry string 75 secure; the string 75 is fed through the keeper 117 and a knot is tied such that the knot cannot pass through the slotted string keeper 117. The string keeper 117 is thus employed when a alignment device 100 is receiving the string 75 from another alignment device 100 at the adjacent corner of the building structure. Further, all of the string guide alignment supports 112 and offset guide include a pair of wear pins 118 on the top corners thereof. The wear pins 118 are formed from metal or a harder plastic material prevent the masonry string 75 from cutting into the PVC material of the alignment arms 111.
The main body 101 further includes a string guide alignment support assembly, shown generally at 130. Assembly 130 includes a string guide alignment support 132 and a string feed guide 135. The string guide alignment support 132 extends above the top of main body 101 and includes a string holder 134 to prevent the string from shifting out of position. The top ends of the string guide alignment support 132 also include a wear pin 118 thereon. The string feed guide 135 controls the string alignment as it comes off a string reel 155 of the reel assembly 150. In an example, the string feed guide 135 is configured to hold the string in a 4″ offset for a step out work evolution in shifting from setting an 8″ concrete block to a 12″ block. The string feed guide 135 includes a channel or recess 137 which aligns the string as it comes off the reel 155, and has a cross-wise string holder 139 to prevent the string 75 from shifting out of position.
The alignment device 100 includes at least one bottom support guide 140 attached to the main body 101 which provides support for the alignment guide 110 above it. Each bottom support guide 140 has brace supports 142 for additional support. The main body 101 also includes an alignment block 145 that maintains the masonry product (such as a concrete block) in the plumb position, so as to prevent shouldering. The alignment block 145 is provided on two sides of the main body 101, each below a corresponding alignment arm 111 of the alignment guide 110. Further, a thumb screw 148 is provided through the main body 101 for securing the alignment device 101 to the corner pole 210 of the system 1000.
As shown in
The tightening of the string 75 should be done by hand-pull, with the slack taken in by actuating handle 156. The spacer block 151 includes a pawl 158 (
As shown in
The brace collar 220 includes a pair of flange brace supports 224 that may be composed of 1½″ flat stock steel. Each flange brace support 224 includes a drilled hole 226 for receiving the corner braces 230. As shown in
Installation of the system 1000 is explained as follows. Initially the corner pole 210 is set up and braced with braces 230 to hold the corner pole 210 in a vertical position. Then the corner pole 210 is scored every 8″ or brick, or every 12′ for block. The alignment device 100 is then installed on the corner pole 210 via the thumb screw 148, noting that the device 100 is slid down the corner pole 210 to the proper elevation for laying the first row of bricks, and then secured.
To create the level line, the reel 155 is release by unlocking pawl 158, and string 75 is paid out from the reel assembly 150 through alignment channels on the main body and alignment arms (i.e., as described in
The lead mason can then begin building the first row of masonry products 50 along the level line formed between the alignment devices 100. Once complete, the alignment devices 100 are raised to the next score line on the corner pole 210 and secured to building the next row off of the structural joint. The corner pole 210 is typically about eight (8) feet in length. In building structures above 8′, the pole 210 can be eliminated as the level line has already been achieved and the top length of the structure is plumb.
Referring to
Like the alignment device 100 of
Each alignment arm 111 of alignment guide 110 is supported by a support brace 116 having a string keeper 117 to hold the masonry string 75 secure when alignment device 100′ receives the string 75 from another alignment device 100 or 100′ at the adjacent corner of the building structure. The support brace 116 also includes a string feed hole 119 to maintain the masonry string 75 aligned with the string reel 155. The support brace 116 includes wear pins 118 that extend out the rear facing to prevent the masonry string 75 from cutting into the PVC material of the support brace 116.
Unlike device 100 of
The components and functions of the reel assembly 150 are the same as described in
Referring to
Referring to
Unlike the alignment device 100 of
The components and functions of the reel assembly 150 are the same as described in
The example alignment device, system and method for assembling structural joints can enable less-skilled masons to perform the level-line evolution. There is no need to actually build a corner before laying rows of masonry products; the system can be installed and the masonry products can be laid immediately. The use of the alignment devices removes the human error from manual sighting so as to build plumb structural joints for both residential and commercial structures. Additionally, the system facilitates the ability of the mason to check the job for squareness. Building up masonry products around bay windows becomes much simpler with the example system and device, and cowan corners may be built only with trig pins and other tools.
The example embodiments being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as departure from the exemplary embodiments of the present invention. All such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
This application claims the benefit of U.S. Provisional Application Ser. No. 60/942,379, filed Jun. 6, 2007, the entire contents of which are hereby incorporated by reference.
Number | Date | Country | |
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60942379 | Jun 2007 | US |