AU2006201078B2 - Adjustable masonry form - Google Patents
Adjustable masonry form Download PDFInfo
- Publication number
- AU2006201078B2 AU2006201078B2 AU2006201078A AU2006201078A AU2006201078B2 AU 2006201078 B2 AU2006201078 B2 AU 2006201078B2 AU 2006201078 A AU2006201078 A AU 2006201078A AU 2006201078 A AU2006201078 A AU 2006201078A AU 2006201078 B2 AU2006201078 B2 AU 2006201078B2
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- Australia
- Prior art keywords
- masonry
- planar base
- adjustable
- elements
- adjustable masonry
- Prior art date
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- Ceased
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Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F13/00—Coverings or linings, e.g. for walls or ceilings
- E04F13/02—Coverings or linings, e.g. for walls or ceilings of plastic materials hardening after applying, e.g. plaster
- E04F13/04—Bases for plaster
- E04F13/06—Edge-protecting borders
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G21/00—Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
- E04G21/14—Conveying or assembling building elements
- E04G21/16—Tools or apparatus
- E04G21/18—Adjusting tools; Templates
- E04G21/1841—Means for positioning building parts or elements
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G21/00—Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
- E04G21/14—Conveying or assembling building elements
- E04G21/16—Tools or apparatus
- E04G21/18—Adjusting tools; Templates
- E04G21/1841—Means for positioning building parts or elements
- E04G21/1858—Templates for window or door openings, e.g. in a masonry wall
- E04G21/1866—Templates for window or door openings, e.g. in a masonry wall for making arches
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F13/00—Coverings or linings, e.g. for walls or ceilings
- E04F13/02—Coverings or linings, e.g. for walls or ceilings of plastic materials hardening after applying, e.g. plaster
- E04F13/04—Bases for plaster
- E04F13/06—Edge-protecting borders
- E04F2013/061—Edge-protecting borders for arched or curved edges
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Mechanical Engineering (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
- Retaining Walls (AREA)
Description
AUSTRALIA PATENTS ACT 1990 REGULATION 3.2 Name of Applicant: MICHAEL EUGENE BAILEY Actual Inventor/s: MICHAEL EUGENE BAILEY Address for Service: E.F. WELLINGTON & CO., Patent and Trade Mark Attorneys, 312 St. Kilda Road, Melbourne, Southbank, Victoria, 3006. Invention Title: "ADJUSTABLE MASONRY FORM" Details of Associated Provisional Applications Nos: The following statement is a full description of this invention including the best method of performing it known to us. 1 FIELD OF THE DISCLOSURE The present disclosure relates generally to a device for use in masonry applications. In particular, the present disclosure relates to an adjustable masonry form to support masonry elements in masonry construction. 5 BACKGROUND In building projects, such as residential homes and commercial buildings, ornamental masonry elements are often placed over/around various structural features for aesthetic purposes. Structural features commonly include windows and doors. However, other types of structural features may also be included such as but not 10 limited to walls. As used in this specification, a "masonry element" shall mean any element, such as, but not limited to, stone and brick, used for construction purposes, generally using mortar as a bond. A masonry element can be manufactured from any material and can be of regular or irregular shape. The presence of masonry accents in a residential home can greatly increase its resale value, and provides the homeowner 15 with the desired aesthetic look and feel he/she is seeking. The process of installing masonry elements over and/or around a desired structural feature varies depending on the shape of the desired structural feature. In some cases, the top of the structural feature will be horizontal (horizontal construction). In other cases, the top of desired structural feature will have an arched 20 component (arched construction). By "horizontal construction" it is meant that the structural feature does not have a change in elevation at any point intermediate between the ends of the structural feature. By "arched construction" it is meant the structural feature that has a change in elevation at any point intermediate between the ends of the structural feature. The term "masonry construction" is used to refer to 2 both horizontal and arched constructions. In the case of horizontal constructions, the standard practice is to lay the masonry elements across a supporting horizontal beam or support (commonly referred to as a lintel) set in place over the structural feature, for example a window. The lintel can be made from steel, wood, or reinforced 5 concrete, depending on the size of opening and weight to be supported. The lintel commonly rests on the masonry that is installed up the sides of the window. The masonry elements are then installed on the horizontal face of the lintel in the configuration desired. The lintel remains a part of horizontal construction above the window or door. 10 In arched constructions, this practice cannot be employed. As stated above, the lintels are generally constructed from steel, wood, or reinforced concrete and cannot be easily adapted to fit the contours of an arched construction. Therefore, other methods must be used to support the masonry elements that form a masonry arch in an arched construction. Several methods are typically used to support the 15 masonry elements that form a masonry arch. The first method is to build an arch form, which is commonly constructed from plywood and dimensional lumber. The arch form must be constructed to exactly fit the contours of the masonry arch to be constructed, and is supported in place with wooden legs or other supports. The arch provides the surface to support the masonry elements forming the arched construction 20 while the mortar hardens. Once the mortar hardens, the arch form is removed and discarded. In addition, the mortar must generally be scratched or chiseled to conform to the appearance of the mortar forming the remainder of the structure. The second method is to drive nails or similar items into the outer edge of the exterior of a structure to support the masonry elements that forms the masonry arch. 3 In order to provide sufficient support for the masonry elements, the nails must be placed close together, which necessitates the use of a large number of nails. Once the mortar hardens, the nails are removed. The removal of the nails leaves multiple holes in the exterior molding that must be repaired by filling the holes and painting the 5 surface The third method is to support a section of lumber horizontal to the bottom edge of the masonry arch to be constructed. Once the section of lumber is in place, bricks or other material are stacked on the horizontal section of lumber to support the masonry elements that form the masonry arch. As is obvious, the bricks are placed in 10 a jigsaw fashion until the proper height is reached to support each section of the masonry elements. This requires that the bricks be cut into smaller pieces to support various sections of the arch. In addition to being very time consuming, such a method leads to many bricks being wasted. In addition, the bricks can fall easily requiring the temporary form be reconstructed. Once the mortar hardens, the bricks and the 15 horizontal section of lumber are removed. A fourth method to support the masonry elements that form a masonry arch is to use prefabricated arch supports. These arch supports are shipped with the arch structure preformed. However, these items must be specially ordered since the configuration of masonry arches varies from application to application, making a 20 "standard" prefabricated arch form impractical. As a result, these prefabricated supports are expensive. In addition, the prefabricated supports create other problems. Since the supports are prefabricated in the form of an arch, they are bulky to ship and store, further increasing their cost. In addition, these preformed supports are 4 susceptible to damage during shipping and storage. As a result, if the units are damaged, construction may be delayed while replacement supports are obtained. Each of the methods discussed above suffer from several shortcomings. In general, the methods are tedious and time consuming to implement. As a result, the 5 cost of the final construction can be increased dramatically. In addition, the arched constructions lack the strength of the horizontal constructions because of the lack of a solid lintel. In most cases, much of the weight of the masonry arch in supported directly by the structure over which the arch is installed, such as a door or window. This additional weight can cause damage. 10 In addition, the Applicant has previously described an adjustable masonry form for use in supporting masonry elements in horizontal and arched constructions (see US Patent 6,848,224). While the device described by Applicant is effective in meeting the needs of the art, it has been found that certain portions of the adjustable arch form are visible when the arched or horizontal construction is viewed from the 15 underside. Therefore, it would be desirable therefore to have an adjustable masonry form was at least partially concealed in the finished horizontal or arched construction. In addition, it is desirable that such adjustable arch form be simple to use, be installed conveniently and economically without the need for the removal of temporary 20 supports. Finally, it would be desirable if the adjustable arch form eliminated the need to make costly repairs to the exterior of the structure caused by the installation process. Such a device is currently lacking in the art. The present disclosure provides and novel and inventive solution in providing an adjustable arch from to meet the needs of the art. 5 BRIEF DESCRIPTION OF THE FIGURES FIG.1A is a perspective top view of one embodiment of the adjustable masonry form of the present disclosure. FIG. 1B is a perspective bottom view of one embodiment of the adjustable masonry 5 form of the present disclosure illustrating one embodiment of the horizontal horizontal breakaway elements. FIG. IC is a perspective view of the one embodiment of the adjustable masonry form of the present disclosure illustrating an alternate embodiment of the horizontal horizontal breakaway elements. 10 FIG. 2 is a perspective view of the adjustable masonry form of FIGS. 1A and B being installed over an arched construction, in this figure a door. FIG. 3 is a side, cutaway view of the adjustable masonry form of FIGS. 1A and B as installed in an arched construction. FIG. 4A is a side view of the adjustable masonry form of FIGS. 1A and B illustrating 15 one embodiment of the grooves. FIG. 4B is a side view of the adjustable masonry form of FIGS. 1A and B illustrating an alternate embodiment of the grooves. FIG. 5 is a partial cutaway view of the adjustable masonry form of FIGS. 1A and B installed over an arched construction, in this figure a window. 20 SUMMARY The adjustable masonry form of the present disclosure is an improvement over current devices available for use in masonry construction. The adjustable masonry form comprises a planar base section to support at least one masonry element which will comprise the masonry arch, a plurality of attachment elements secured to the 6 planar base and at least one horizontal breakaway element located on the planar base to allow adjustment of the width of the planar base. In addition, the adjustable masonry form may further comprise at least one vertical breakaway element located on the planar base to allow adjustment of the length of the adjustable masonry form. 5 The adjustable masonry form is constructed from material rigid enough to support the masonry elements, but flexible enough to be bent to conform to any given masonry construction. The adjustable masonry form is secured to the exterior of a structure by means known in the art, such as screws, nails or staples; suitable adhesives may also be used if desired. The masonry elements which will comprise the masonry 10 construction are placed directly on the planar base of the adjustable masonry form in the desired configuration and secured in the masonry construction, such as by using mortar or similar methods. The adjustable masonry form is left in position permanently, obviating the need to build a temporary support saving time and expense and obviating waste of materials, while providing additional strength to the masonry 15 construction. The adjustable masonry arch may be modified by removing at least a portion of the planar base using the horizontal breakaway elements. In addition, there is no repair required to the exterior surface of the structure. Therefore, it is an object of the disclosure to provide an adjustable masonry form that is capable of being installed in any masonry construction at a construction 20 site without the need to create individually configured temporary supports for the masonry construction. It is another object of the disclosure to provide an adjustable masonry form that is permanently installed in a masonry construction, thereby obviating the time consuming and wasteful practice of creating temporary forms, and which provides additional strength to the masonry arch. An additional object of the 7 disclosure is to provide an adjustable masonry form such that the planar base and/or attachment elements will not be deformed as the adjustable masonry form is bent to conform to the contours of a masonry construction. Yet another object of the disclosure to provide an adjustable masonry form that is economical to produce and 5 simple to install, decreasing the overall cost of the finished masonry construction. It is a further object of the disclosure to provide an adjustable masonry form that can be easily shipped, transported and stored, thereby minimizing the risk of damaging the form and avoiding costly construction delays caused by ordering replacement arch forms. It is also an object of the disclosure to provide an adjustable masonry form 10 that will prevent damage to the structure to which masonry construction is installed. Furthermore, it is an object of the disclosure to provide an adjustable masonry form that can be modified to conform to the individual dimensions of the masonry construction so as to decrease or eliminate the visibility of the adjustable masonry form. Additional objects and advantages will become apparent through the drawings 15 and descriptions that follow. DETAILED DESCRIPTION The adjustable masonry form 10 is illustrated in FIGS. 1-5, where like numbers in the figures refer to like elements. While the adjustable masonry form 10 can be used in any masonry construction, the description below describes the use of 20 the adjustable masonry form 10 in an arched construction. However, it should be understood that the adjustable masonry arch from 10 can also be used in a horizontal construction. As illustrated in FIG. 1, the form 10 is comprises a planar base 12, a plurality of attachment elements 22 and at least 1 horizontal breakaway element 19 located on 8 the planar base 12. The planar base 12 comprises a longitudinal axis 14, a front edge 16 and a rear edge 18 parallel to the axis 14, an upper surface 15, a lower surface 17 and two ends 20A and 20B. The width of the planar base 12 is sufficient to support the masonry elements to be incorporated into the masonry construction. The width of 5 the planar base 12 may be greater than or less than the width of the masonry elements and can be varied as determined by individual applications as can be determined by one of ordinary skill in the art. In one embodiment the planar base 12 is 3 inches wide. For aesthetic purposes, it is desired that the width of the planar base 12 be slightly less than the width of the masonry elements to be incorporated into the 10 masonry arch (as illustrated in FIG. 3). The width of the planar base may be manufactured to be less than the width of the masonry elements or be modified to be less than the width of the masonry elements either before of after installation using the horizontal breakaway elements 19 as described herein. The adjustable masonry form 10 can be manufactured in any length desired and can be cut to fit a given installation 15 at the job site. A plurality of attachment elements 22 are secured to the rear edge 18. In the embodiment illustrated, the attachment elements 22 are shown as flanges (although any configuration of attachment elements may be used). The flanges may be of any desired configuration, but in the embodiment shown the flanges are shown with 20 rounded edges for ease of installation and to remove sharp edges which may cause injury to the installer. In one embodiment the attachment elements 22 each have an opening 24 for receiving an element to secure the form 10 to a structure. In one embodiment, the opening 24 is centered on the attachment elements 22 for ease of use, but opening 24 may be placed anywhere on flange 22. 9 The attachment elements 22 are placed at intervals along rear edge 18 of the planar base 12. In one embodiment, the attachment elements 22 are placed 1 inch apart along the length of the rear edge 18. By spacing the attachment elements 22 apart from one another, the adjustable masonry form 10 can be bent to conform to the 5 contours of a desired masonry construction without deforming planar base 12 and/or the attachment elements 22. In prior devices, when the form is made to conform to the contours of an arched construction, the device would be deformed at undesirable locations in response to the bending force applied. This deformation is often referred to as splaying or buckling. As a result of the splaying or buckling of prior devices, 10 the masonry elements could not be installed in a uniform and aesthetically pleasing manner. The spacing apart of the attachment elements 22 along the rear side 18 also allows the form 10 to be bent without requiring excessive bending force to be applied, allowing the form 10 to be installed at a jobsite with no special equipment required. The width of each individual attachment elements 22 is such that the attachment 15 elements 22 can be secured, but narrow enough so that the attachment elements 22 will not interfere with the flexibility of the form 10. In one embodiment the width of the individual attachment elements is 1 inch. The above spacing distances and widths are given as examples only, and other spacing distances and flange widths may be used as determined by one of ordinary skill in the art and should be considered within 20 the scope of this disclosure. The adjustable masonry form 10 further comprises at least one horizontal breakaway element 19 on the planar base 12. The horizontal breakaway element 19 may be positioned on the lower surface 17, the upper surface 18, or both as desired. The horizontal breakaway element 19 allows a user to configure the adjustable 10 masonry form 10 to a particular installation by altering the width "W" of the planar base 12. In this manner, the width of the planar base 12 of the adjustable masonry form 10 can be custom tailored to each masonry construction if desired. In one embodiment, the horizontal breakaway element 19 is a groove, designated 19a (FIGS. 5 1A and 1B and 4A and 4B). In an alternate embodiment, the horizontal breakaway element is a scored line designated 19b (FIG. IC). Other horizontal breakaway elements may be used as is known in the art. The horizontal breakaway element 19 runs at least partially down the length of the planar base 12. In one embodiment, the horizontal breakaway element runs the entire length or substantially the entire length 10 of the planar base 12. The horizontal breakaway element 19 may be parallel to the longitudinal axis 14 of the planar base 12. A plurality of horizontal breakaway elements 19 may be positioned on the planar base 12 at varying distances from the rear edge 18 of the planar base 12. In one embodiment, a horizontal breakaway element 19 is placed every 0.25 inches, or every 0.5 inches or every 1 inch or every 2 15 inches from the rear edge 18 and/or the front edge 16. The placement of the horizontal breakaway elements as described allows a user to select a particular horizontal breakaway element 19 for use in tailoring the width of the planar base 12 as described below. For the purpose of the present disclosure and the figures presented herein, the horizontal breakaway element 19 is shown as groove 19a and 20 score line 19b. The groove 19a has a depth (indicated by the distance "X" in FIGS. 4A and B) and an outer configuration 21. In one embodiment, the groove 19a runs horizontal to the longitudinal axis 14 of the planar base 12. The groove 19a extends into planar base 12 a distance (or depth) X that is less than the thickness of the planar base 12 11 (designated "T" in FIGS. 4A and 4B) such that the groove 19a does not extend completely through the planar base 12. The depth X of the groove 19a is selected so that the planar base 12 may be cut by a blade or other cutting device when required with minimal effort. In one embodiment, the depth X extends up to 75% of the 5 thickness T; in an alternate embodiment, the depth X extends up to 90% of the thickness T; in yet another alternate embodiment, the depth X extends up to 95% of the thickness T, in still another alternate embodiment, the depth X extends up to 98% of the thickness T; in a further embodiment, the depth X extends up to 99% of the thickness T. The groove 19a also has an outer configuration 21. The outer 10 configuration may take on a number of shapes and is not critical to the present disclosure. In one embodiment, the outer configuration is a curved or arcuate. In an alternate embodiment, the outer configuration takes a geometric shape, such as a triangle, a square, a rectangle or a polygon. FIGS. 4A and 4B provide two examples of the outer configuration of groove 19a. The outer configuration of the groove 19a 15 may be adapted to receive a blade or other cutting device to allow the planar base 10 to be configured to a particular masonry construction. In the embodiment illustrated in FIG. IC where the horizontal breakaway element 19 is a scored line 19b, the scored line 19b comprises a series of cuts 19d that extend completely through the thickness T of the planar base 12, with the cuts 19d 20 being separated by interspaced areas 19e. The interspaced areas 19e may have a thickness equal to the thickness T of the planar base 12 or less than the thickness T of the planar base 12. The cuts 19d and interspaced areas 19e may be of any length desirable. In one particular embodiment, the cuts 19d are from 0.25 to 2 inches in length and the interspaced areas 19e are from 0.25 to 1 inch in length. The length of 12 the cuts 19d and the interspaced areas 19e determined the overall spacing of the cuts 19d along the planar base 12. In one embodiment, a cut 19d is placed adjacent to one or both of the ends 20A or 20B and is referred to as the "first cut". The first cut may form an opening or gap in one or both of the ends 20A or 20B and may have a length 5 greater than the remaining cuts 19d to aid in tearing the planar base 12 along the scored line 19b. The adjustable masonry form 10 may further comprise at least one vertical breakaway element 30 on the planar base 12. The horizontal breakaway element 19 may be positioned on the lower surface 17, the upper surface 18, or both as desired. 10 The vertical breakaway element 30 allows a user to configure the length of the adjustable masonry form 10 to a particular installation easily and efficiently. In one embodiment, the vertical breakaway element 30 is a groove, designated 30a (FIG. 1B). In an alternate embodiment, the vertical breakaway element 30 is a scored line designated 30b (FIG. 1C). Other vertical breakaway elements 30 may be used as is 15 known in the art. The vertical breakaway element 30 runs at least partially across the width W of the planar base 12. In one embodiment, the vertical breakaway element 30 runs substantially the entire width W of the planar base 12. The vertical breakaway element 30 may be perpendicular to the longitudinal axis 14 of the planar base 12. A plurality of vertical breakaway elements 30 may be positioned on the 20 planar base 12 at varying distances from the ends 20A and/or 20B of the planar base 12. In one embodiment, a vertical breakaway element 30 is placed every 1 inch, or every 5 inches or every 12 inch or every 24 inches or every 36 inches from the ends 20A or 20B. The placement of the vertical breakaway elements 30 as described allows a user to select a particular vertical breakaway element 30 for use in tailoring 13 the length of the adjustable masonry arch as described. For the purpose of the present disclosure and the figures presented herein, the vertical breakaway element 30 is shown as groove 30a and score line 30b. The groove 30a is understood to be identical in structure to groove 19a and to share the features as described of groove 19a. Score 5 line 30b is understood to be identical in structure to score line 30b and to share the features as described of score line 30a The adjustable masonry form 10 is made of a material that is rigid enough to support the masonry elements comprising the masonry arch, yet flexible enough to be bent to conform to the contours of a masonry construction, such as an arched 10 construction as typically encountered over a window or door. A preferred material for construction of form 10 is a plastic such as a high strength plastic. However, other materials may be used provided that such materials are susceptible to being modified along the horizontal breakaway elements 19 as discussed herein so as to customize the adjustable masonry form 10 for a desired masonry construction. For example, the 15 adjustable masonry form 10 may be manufactured from metals, such as aluminum, tin and other light gauge metals, or composite materials. Since the adjustable masonry form 10 is flexible, it can be bent from its horizontal configuration to conform to the contours of an arched construction and secured in place at the site of use (illustrated in FIGS. 2 and 5). 20 In one embodiment, the adjustable masonry form 10 is manufactured from a plastic. Any plastic material may be used as is known in the art including but not limited to thermoplastics, thermosets and elastomers. Exemplary plastics include, but are not limited to, polyvinyl chloride, polystyrene, nylon, high density polyethylene, polyethylene, low density polyethylene, polypropylene, polyimide, polyester, acrylic 14 and vinyl. When plastic is used, the plastic may be colored by the inclusion of a pigment in the manufacturing process so as to have a characteristic color. The characteristic color may be matched with the color of the masonry elements used in the masonry construction if desired to provide a more pleasing aesthetic impact. In 5 addition, the plastic may be clear/transparent so as to be less visible in the finished masonry construction (for example when an acrylic is used). The form 10 can be made by a variety of methods, the following being provided as example only. The form 10 may be formed from a single piece of material. For example, when metals are used, the adjustable masonry form 10 may be 10 stamp cut, die cut or laser cut to form the planar base 12 and the individual attachment elements 22 at the desired intervals along the newly formed rear edge 18. Such methods are well known in the art. Once the attachment elements 22 are formed, the attachment elements 22 can be bent upward such that they are generally perpendicular to axis 14 of the planar base 12. The attachment elements 22 are illustrated as flanges 15 with rounded edges for ease of installation and to minimize sharp edges, however, any configuration of attachment elements 22 may be produced. Alternatively, individual attachment elements 22 may be produced individually and secured to the rear edge 18 of planar base 12 by any convenient means, such as by welding. In the case where the adjustable masonry form 10 is produced from a plastic or similar material, the 20 adjustable masonry form 10 may be manufactured using any technique known in the art, such as but not limited to, injection molding, extrusion molding or blow molding. Such methods are well known in the art. The attachment elements 22 may be produced in the molding process or from a precursor sheet as described above using a die-cutting method, a stamp cutting method or laser cutting method. 15 The adjustable masonry form 10 is produced in a horizontal configuration. The benefits of making the adjustable masonry form 10 in the horizontal configuration include ease of transporting, shipping and storing the adjustable masonry form 10 as compared to prefabricated forms. Since the adjustable masonry 5 form 10 is not prefabricated to a final configuration (such as but not limited to an arch), much less space is required to ship, transport and store the adjustable masonry form 10. In addition, because the adjustable masonry form 10 is made in the horizontal configuration out of a sturdy material, the adjustable masonry form 10 is less likely to be damaged during shipping, transport and storage, thereby eliminating 10 possible delay in construction caused by obtaining replacement forms. Furthermore, since the adjustable masonry form 10 can be bent to conform to any arched construction, there is no need to maintain a supply of prefabricated adjustable masonry forms for use on different types of arched constructions, greatly decreasing the cost of storage and maintaining the proper inventory. 15 The use of the adjustable masonry form 10 is illustrated in FIGS. 2, 3 and 5. The adjustable masonry form 10 is placed at a desired location to form a masonry construction. In this example an arched construction is described, but the techniques of use are applicable to a horizontal construction as well. The adjustable masonry form 10 is secured to a structure at the desired location for the arched construction, 20 illustrated best in FIGS. 2, 3 and 5. The adjustable masonry form may be placed against a molding (designated 50) that defines the arched construction as is known in the art. The adjustable masonry form 10 is then bent into shape over the molding 50 to conform to the shape of the molding 50 and provide a flat surface on which to place the masonry elements which will comprise the arched construction. FIG. 2 shows the 16 adjustable masonry form 10 in its horizontal configuration (10A) prior to bending and after it is bent (10B) to conform to the contours of the arched construction. The adjustable masonry form 10 can be manipulated to fit any arched construction by simply cutting the form 10 to the desired length and bending the form 10 to conform 5 to the contours of the desired arched construction. In one embodiment, the form 10 is cut to the desired length before being bent to conform to the desired arched construction. The vertical breakaway elements 30 may be used to modify the length of the adjustable masonry arch to the desired length if desired. Once the adjustable masonry form 10 is in place, the form 10 is secured to the exterior of the structure, 10 illustrated as sheathing 52 in FIGS. 3 and 5. FIG. 3 shows the adjustable masonry form 10 being secured by a nail 54, however, other securing elements, such as screws, staples, or bolts may be employed. Once the adjustable masonry form 10 is secured, the flanges 22 may be covered with the appropriate waterproof construction paper to prevent seepage of water behind the form 10. 15 Once adjustable masonry form 10 is secured in place, masonry elements 58 are placed on the planar base 12 and arranged according to the specifications for the given arched construction. While any masonry elements may be used, FIG. 3 illustrates a typical brick 56 being installed on planar base 12 with a keystone 58a at a desired location. The individual masonry elements are then secured in the desired 20 arrangement, such as by mortar or similar material. Once the mortar hardens, the masonry elements 58 are secured in place. The adjustable masonry form 10 remains as a part of the arched installation and it is not required to remove the form 10. An additional advantage of the adjustable masonry form 10 remaining a permanent part of the masonry arch is the form 10 provides strength to the masonry arch. As a result, 17 the mortar holding the masonry arch together is less prone to crack as a result of normal settling of the structure and other factors. As a result, repair and maintenance cost may be significantly less in masonry constructions, such as arched constructions, having the additional strength afforded by form 10, than in arched constructions 5 without such additional strength. As discussed above, it is desirable that the width of the planar base 12 be less than the width of the masonry elements to be installed on planar base 12 such that planar base 12 is partially concealed in the finished masonry construction. However, when viewed from below, a significant portion of the planar base 12 can be seen in 10 the finished masonry construction. The present disclosure allows the adjustable masonry form 10 to be configured based on the individual masonry construction such that the planar base 12 is essentially invisible (even when viewed from below) in the finished masonry construction. As best shown in FIG. 5, the adjustable masonry form 10 may be configured 15 based on the individual masonry construction, in this example an arched construction. Once the adjustable masonry form 10 is installed and the masonry elements 58 placed thereon and secured together, the width of the planar base may be decreased using the horizontal breakaway elements 19. Alternatively, the width of the planar base 12 may be modified prior to installation. In this manner, the width of the planar base may be 20 decreased to a point where only a small portion of the planar base 12 is remaining or no portion of the planar base 12 is remaining. For example, when the horizontal breakaway element 19 is a groove 19a, a user places a cutting element in the groove 19a and moves the cutting element along the groove 19a such that the planar base is severed along the groove 19a. Depending on which groove 19a is selected, the 18 amount of planar base 12 remaining can be selected by the user. As discussed above, the groove 19a has a depth X that is less than the thickness T of the planar base 12. The cutting element cuts through the thickness of the planar base defined by the distance T-X (which is illustrated in FIGS. 4A and 4B as TI). As discussed above, T1 5 may be varied by altering the depth X of he groove 19a or by altering the thickness T of the planar base, or by a combination of the foregoing. The cutting element may be selected depending on the material from which the adjustable masonry form 10 is manufactured. If the adjustable masonry form 10 is manufactured from a plastic or similar material a knife blade or other blade may be used. If the adjustable masonry 10 form 10 is manufactured from a metal, a powered cutting element may be used. Since the width of the planar base 12 can be modified after installation of the adjustable masonry form 12, the initial width of the planar base 12 may be wider than the width of the masonry elements 58 used in the masonry construction. The greater width of the planar base 12 may allow the adjustable masonry form to provide more support to 15 the masonry elements 58 during installation, thereby simplifying the installation process. As discussed above, the width of the planar base 12 can be modified using the horizontal breakaway elements 19 so that the planar base 12 of the adjustable masonry form 10 is not visible or slightly visible in the finished masonry construction. Alternatively, when the horizontal breakaway element 19 is a scored line 19b, 20 the user simply selects the appropriate scored line 19b and places sufficient pressure along the scored line 19b such that the scored line 19b, with the aid of the cuts 19d, tears along the scored line 19b. The pressure may be applied by hand or as assisted by a device. Depending on which scored line 19b is selected, the amount of planar base 12 remaining can be selected by the user. 19 A small portion of planar base 12 may be left in the finished masonry construction to aid in supporting the masonry elements 58. However, all or substantially all of the planar base 12 may be removed if desired such that the planar base 12 provide no or substantially no support to the masonry elements 58. In one 5 embodiment, a portion of the planar base 12 is left in order to support the masonry elements 58 in the finished masonry construction. The portion may be in the range of 0.25 to 2 inches. The visibility of said portion of the planar base 12 may be decreased by coloring the adjustable masonry form 10 to match the color of the masonry elements 58 or the surrounding masonry construction, or by manufacturing the 10 adjustable masonry form 10 to be transparent. As discussed above, there are several alternate methods of supporting masonry .elements in an arched construction. In most of these methods, the masonry elements are placed directly on the molding of the window or door over which they will be installed. In the case of installation over windows, the weight of the masonry 15 elements stresses the window such that the panes in the window may be damaged. For example, it is not uncommon for the seal in a double-paned window to break under the weight of masonry elements, which are applied directly on the molding of the window. The use of the form 10 removes the weight of the masonry elements from the window or door, thereby preventing damage to these components, further 20 reducing the costs of construction. The above has described several embodiments of the adjustable masonry form in detail so that the form and its principles of operation may be understood. The above discussion should not be interpreted to exclude additional embodiments of the form. With respect to the above description, it should be considered that the optimal 20 dimensional relationships for the various parts of the form, including variations in size, materials, shape, form, function and manner of operation, assembly and use, are readily apparent to one of ordinary skill in the art, and all equivalent relationships to those described above and illustrated in the figures are intended to be encompassed by 5 the present disclosure. Therefore, the foregoing is considered illustrative only, and should not be understood to limit the scope of the disclosure to the exact construction and operation discussed and illustrated. With reference to the use of the word(s) "comprise" or "comprises" or "comprising" in the foregoing description and/or in the following claims, unless the 10 context requires otherwise, those words are used on the basis and clear understanding that they are to be interpreted inclusively, rather than exclusively, and that each of those words is to be so interpreted in construing the foregoing description and/or the following claims. 15 21
Claims (33)
1. An adjustable masonry form for supporting a masonry construction, said masonry construction comprising a plurality of masonry elements each of which having a width, the form comprising a planar base and a plurality of 5 attachment elements secured to the planar base, said planar base comprising a width, two ends, a front edge, a rear edge, a bottom surface, a top surface and at least one horizontal breakaway element, said planar base receiving and supporting the masonry elements, and said form remaining a permanent part of the masonry construction. 10
2. The adjustable masonry form of claim 1 wherein the form is manufactured from a material sturdy enough to support the masonry elements, but flexible enough to conform to the contours of the masonry construction without deforming the planar base and the attachment elements.
3. The adjustable masonry form of claim 1 or 2 where the masonry 15 construction is an arched construction or a horizontal construction.
4. The adjustable masonry form of any one of claims 1 to 3 comprising a plurality of horizontal breakaway elements, said horizontal breakaway elements spaced apart on said planar base by a distance, said distance being independently selected from the range of 0.25 inches to 2.0 inches. 20
5. The adjustable masonry form of any one of claims 1 to 4 where said at least one horizontal breakaway element is horizontal to a longitudinal axis of the planar base. 22
6. The adjustable masonry form of any one of claims I to 5 where the width of the planar base is less than the width of the masonry elements or greater than the width of the masonry elements.
7. The adjustable masonry form of any one of claims 1 to 6 where the 5 horizontal breakaway elements are used to modify the width of the planar base.
8. The adjustable masonry form of any one of claims 1 to 7 where the planar base has a thickness and the at least one horizontal breakaway element is a groove, said groove having a depth that is less than the thickness of the 10 planar base.
9. The adjustable masonry form of claim 8 where said groove further comprises an outer configuration, said outer configuration having an arcuate shape or a geometric shape.
10. The adjustable masonry form of claim 9 where the geometric shape is 15 selected from the group consisting of a square, a triangle, a rectangle and a polygon.
11. The adjustable masonry form of any one of claims 8 to 10 where the depth is expressed as a percentage of the thickness of the planar base, said percentage selected from the group consisting of 75%, 90%, 95%, 98% 20 and 99%.
12. The adjustable masonry form of any one of claims 1 to 7 where the planar base has a thickness and the at least one horizontal breakaway element is a score line, said score line comprising a plurality of cuts separated by a plurality of interspaced areas. 23
13. The adjustable masonry form of claim 12 where the cuts extend through the thickness of the planar base.
14. The adjustable masonry form of claim 13 where the interspersed areas have a depth and the depth is equal to the thickness of the planar base or 5 less than the thickness of the planar base.
15. The adjustable masonry form of claim 12 where the cuts and the interspaced areas each have a distance, the distance being independently selected from the range of 0.25 inches to 2.0 inches.
16. The adjustable masonry form of claim 12 where the plurality of cuts 10 comprise a first cut, said first cut having a having a length greater than the remaining cuts of the score line and positioned contiguous to the first or second end of the planar base.
17. The adjustable masonry arch form of any one of claims I to 16 further comprising at least one vertical breakaway element. 15
18. The adjustable masonry form of claim 17 comprising a plurality of vertical breakaway elements, said vertical breakaway elements spaced apart on said planar base by a distance, said distance being independently selected from the range of 1 inch to 36 inches.
19. The adjustable masonry form of claim 17 where said at least one vertical 20 breakaway element is perpendicular to a longitudinal axis of the planar base.
20. The adjustable masonry form of claim 17 where the vertical breakaway elements are used to modify the length of the form. 24
21. The adjustable masonry form of claim 17 where the planar base has a thickness and the at least one vertical breakaway element is a groove, said groove having a depth that is less than the thickness of the planar base.
22. The adjustable masonry form of claim 21 where said groove further 5 comprises an outer configuration, said outer configuration having an arcuate shape or a geometric shape.
23. The adjustable masonry form of claim 22 where the geometric shape is selected from the group consisting of a square, a triangle, a rectangle and a polygon. 10
24. The adjustable masonry form of claim 21 where the depth is expressed as a percentage of the thickness of the planar base, said percentage selected from the group consisting of 75%, 90%, 95%, 98% and 99%.
25. The adjustable masonry form of claim 17 where the planar base has a thickness and the at least one vertical breakaway element is a score line, 15 said score line comprising a plurality of cuts separated by a plurality of interspaced areas.
26. The adjustable masonry form of claim of claim 25 where the cuts extend through the thickness of the planar base.
27. The adjustable masonry form of claim 25 where the interspersed areas 20 have a depth and the depth is equal to the thickness of the planar base or less than the thickness of the planar base.
28. The adjustable masonry form of claim 25 where the cuts and the interspaced areas each have a distance, the distance being independently selected from the range of 0.25 inches to 2.0 inches. 25
29. The adjustable masonry form of any one of claims 25 to 28 where the plurality of cuts comprise a first cut, said first cut having a having a length greater than the remaining cuts of the score line and positioned contiguous to the first or second end of the planar base. 5
30. The adjustable masonry form of any one of claims 1 to 29 where the attachment elements are spaced apart along the rear edge of the planar base and form a generally perpendicular angle with the planar base.
31. The adjustable masonry form of any one of claims 1 to 30 where the form is manufactured from a material selected from the group consisting of a 10 plastic, a composite and a metal.
32. The adjustable masonry form of any one of claims I to 31 where the planar base has a width of three inches.
33. The adjustable masonry form of claim 1, substantially as hereinbefore described with reference to any one of the embodiments illustrated in the 15 accompanying drawings. BA.5484A 26
Applications Claiming Priority (2)
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US11/148,904 US20060277840A1 (en) | 2005-06-09 | 2005-06-09 | Adjustable masonry form |
US11/148,904 | 2005-06-09 |
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AU2006201078A1 AU2006201078A1 (en) | 2007-01-04 |
AU2006201078B2 true AU2006201078B2 (en) | 2011-02-03 |
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AU2006201078A Ceased AU2006201078B2 (en) | 2005-06-09 | 2006-03-15 | Adjustable masonry form |
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US (2) | US20060277840A1 (en) |
AU (1) | AU2006201078B2 (en) |
CA (1) | CA2533234C (en) |
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US20070234661A1 (en) * | 2005-01-28 | 2007-10-11 | Ed Vaes | Multi piece curved moldings |
GB2435894A (en) * | 2006-03-08 | 2007-09-12 | Patrick Sweeney | Architrave support |
CA2582486C (en) * | 2006-03-27 | 2014-02-18 | Ed Vaes | Method of manufacturing multi piece curved moldings from planar material |
US7712262B2 (en) * | 2006-08-31 | 2010-05-11 | Tom Scanlan | Removable arch form assembly and method of installing |
US20080196340A1 (en) * | 2007-02-17 | 2008-08-21 | Timothy Smythe | Arch drywall trim product |
US20100088977A1 (en) * | 2008-10-14 | 2010-04-15 | Curtis William Darling | Apparatus and method for finishing a wall surface |
US20100270104A1 (en) * | 2009-03-20 | 2010-10-28 | Atzert Robert J | Shapeable framing system |
US10753101B1 (en) | 2016-12-09 | 2020-08-25 | Baton, LLC | Artificial lightweight stone |
CN106639068B (en) * | 2017-01-23 | 2022-11-04 | 史世英 | Support-free cast-in-place reinforced concrete wall form infilled wall and construction method thereof, and manufacturing method of wall form veneer and non-bearing infilled wall |
US10954669B2 (en) * | 2018-03-12 | 2021-03-23 | Scott W. Sander | Method and apparatus for sealing grout space |
US11549256B2 (en) | 2018-03-12 | 2023-01-10 | Scott W. Sander | Method and apparatus for sealing grout space |
EP3891348A4 (en) * | 2018-12-03 | 2022-09-14 | Fero Corporation | Support bracket apparatus |
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- 2005-06-09 US US11/148,904 patent/US20060277840A1/en not_active Abandoned
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- 2006-03-15 AU AU2006201078A patent/AU2006201078B2/en not_active Ceased
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US20030177714A1 (en) * | 2002-03-20 | 2003-09-25 | Bailey Michael Eugene | Adjustable masonry arch form |
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CA2533234C (en) | 2009-06-02 |
US20060277840A1 (en) | 2006-12-14 |
AU2006201078A1 (en) | 2007-01-04 |
US20100088983A1 (en) | 2010-04-15 |
CA2533234A1 (en) | 2006-12-09 |
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