The present invention relates to an apparatus for and method of installing a window or panel within a poured concrete wall.
Concrete walls offer resistance to rot, rodents, termites and fungus, and are not toxic. Solid concrete walls possess greater flexural and compressive strength than concrete blocks and can better resist lateral pressure. They are also more fire resistant and more impervious to water. These advantages make a poured concrete wall an excellent choice as a foundational wall.
Glass block windows or panels provide functional as well as aesthetic purpose. They offer medium privacy, allow light transmission, form a sound barrier, and enhance the beauty of the decor. Furthermore, glass blocks are durable and easy to clean.
Glass block is typically installed in a poured concrete wall after the wall is poured. It would be desirable to pour the wall with the glass block window in place, rather than installing the block after the wall is poured.
A method for installing a window in or within a poured concrete wall is disclosed. The method comprises a kit with at least one window block. It also includes a first spacer adapted to abut a first side of the glass block and a second spacer adapted to abut a second side of the window block. The method implementing the kit includes the steps of erecting a wall form comprising of a first and a second form, locating the kit in between the first and second form, placing concrete into the wall form around the window kit, removing the first and second wall forms, and removing the first and second spacers.
The present invention will now be described with reference to the figures, wherein like reference numerals are used to refer to like elements throughout. It is to be appreciated that the various illustrations are not necessarily absolute, and in particular that the size of the components are suitable for the example and for facilitating the understanding of the method. In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It may be evident, however, that the present invention can be practiced without these specific details. Additionally, other embodiments of the invention are possible and the invention is capable of being practiced and carried out in ways other than as described. The terminology and phraseology used in describing the invention is employed for the purpose of promoting an understanding of the invention and should not be taken as limiting.
Disclosed is a system and method for installing a device in a poured concrete wall. Example devices which can be installed in a poured wall using the disclosed system and method include windows, (e.g., glass block, hopper, etc.), doors, vents and pipe sleeves. Conventional method of installing such devices in a poured concrete wall include making a form, placing the concrete into the form and around the device preform, then installing the desired device into the opening left from the device preform. In the current disclosure, the method hangs the device between the forms for the poured wall prior to pouring concrete. The device is held in place by the cured concrete wall and does not have to be separately installed after the wall is formed. This eliminates any need for custom preparation in the making of a form and also eliminates any need for custom fitting of the device during installation and after the concrete wall has been constructed.
The system and method will be described below with respect to the installation of a glass block window in a poured concrete wall. It is to be appreciated that the system and method are applicable to the installation of other devices in poured concrete walls, such as doors, vents and pipe sleeves. As used herein, the term “poured” refers to any method well known to one of ordinary skill in the art including pouring the concrete, pumping the concrete into the desired position and placing the concrete via a gravity fed method.
With reference to
With further reference to
Furthermore, the spacers 12, 18 can have dimensions that are substantially equivalent to the width w and height h dimensions of the panel 16. Moreover, the thickness of the spacers 12, 18 and overall thickness of the kit 10 can tend to be equivalent to the desired thickness of the wall to be constructed. The spacers 12, 18 in one embodiment can be formed out of extruded 2 lb. polystyrene foam, but should not be solely limited to these examples.
As an additional example, a 7⅝ inch thick wall can require that the overall thickness of the kit 10 be equivalent to 7⅝ inches. In one embodiment, the first spacer 12 can have a thickness of 2½ inches and second spacer 18 can have a thickness of 2 inches and panel 16 can have a thickness of about 3⅛ inches. Thus, removal of the spacers 12, 18 can result in a recess on both sides of the panel 16. Accordingly, in a 7⅝ inch thick wall the inner recess can be 2½ inches and the outer recess can be 2 inches. However, the spacers 12, 18 can be customized to fit any desired width w, height h, and thickness to meet the specifications and requirements of an application.
With reference to
As discussed above and shown in
As shown in
In yet another embodiment, the spacers 12, 18 can be secured directly to the panel 16. This can be done by placing a small amount of glue or epoxy onto each glass block 14, contacting the spacers 12, 18 to the panel 16 and applying pressure to the spacers 12, 18 to form a secure connection. It should be noted that flex bands 24 are optional in this embodiment. After both spacers 12, 18 have been secured to the panel 16, a bead of epoxy can be laid around the edge between the panel and each spacer. The dried glue acts as barrier and prevents the viscous concrete from flowing between the panel 16 and each spacer 12, 18 at the time of construction. In a related embodiment, the spacers 12, 18 can be substantially wrapped in packing tape. The packing tape is designed to protect the foam spacers 12, 18 and also aids in separating the spacers 12, 18 from the panel 16 after construction of the wall is complete.
Additionally, a handle feature can be added to assist in transporting the kit 10. By using two fasteners 22 at opposing ends of the shorter flex band and secured to the flex band 24, the shorter flex band creates a handle to provide a single-handed carrying method for the kit 10. In another embodiment, more than one short flex band can be attached to more than one flex band 24, for increased load capability. For example, a first short flex band can be attached to a first flex band 24, and a second short flex band can be attached to a second flex band 32. The first and second short flex bands can then be fastened together to create one handle, thus adding additional stability and increased durability.
In yet another embodiment, a large number of glass blocks in a single panel 16 can require that the fasteners 22 can be made of a metal or metal alloy. The fastener 22 can be required to hold the two ends of the flex band 24 together while being subjected to the large amount of force produced by the weight of the panel 16. However, less demanding applications can permit the use of a plastic fastener 22. In yet another embodiment, fasteners 22 can be integrated into the two ends of the length of flex band 24. The fasteners can posses other means of fastening the two ends of the flex band 24 together, such as hook and loop fasteners or an interlocking means.
With further reference to
As shown in
In yet another embodiment, and as shown in
A method of using the window kit is hereby described.
After a panel 16 is constructed from one or more glass blocks 14 and wall anchors 48 secured into place, metal hangers 34 are secured to the upper corners of the panel 16. If the second flex band 32 has a length and is not a continuous band, the flex band is fastened together via a fastener 22. After the metal hanger 34 has been fastened to the panel 16, the spacers 12, 18 are attached to each side of the panel 16. Side protectors 26 are placed on the edges of each spacer 12,18, and the flex band 24 is then wrapped around the two spacers and contacting the protectors 28, which secures the two spacers to the panel 16. At this point or any point prior, the 30° protector 28 can be connected to the angled edge 20 on the second spacer 18. After assembly of the kit 10 is completed, the entire window assembly is shipped to a construction site in its assembled form.
With reference to
Once the wall forms 42 are erected, a male threaded bolt 46 is inserted through a hole in a mount 44 or cross-bar and secured together. This process is repeated for a second male threaded bolt 46 and a second mount 44. Then the male threaded bolt 46 is secured into the metal hanger 34 at each corner of the kit 10. Once the bolt and mount assembly is securely fastened to the kit 10 via the metal hanger 34, the window kit 10 is then lowered in between the wall forms 42 until the mount 44 rests on the top edges of the wall forms 42, thus hanging the window kit 10 at the desired height and position, as shown in
Additionally, as shown in
After the window kit 10 is securely in place, concrete can be poured into the wall form 42 and around the window kit 10. If the desired location of the window makes the window kit 10 accessible after the pouring of and drying of the concrete, any remains of the kit, such as flex bands, can be removed. Once the concrete has cured and wall forms removed, the spacers 12, 18 can be removed. What is left is panel 16 window securely fastened to the concrete wall, with a wash 50 on the exterior portion of the wall 52 of the finished window 54, as shown in
The invention has been described with reference to the example embodiments described above. Modifications and alterations will occur to others upon a reading and understanding of this specification. Examples embodiments incorporating one or more aspects of the invention are intended to include all such modifications and alterations insofar as they come within the scope of the appended claims.
This application claims the benefit of U.S. Provisional Application Ser. No. 61/044,610, filed Apr. 14, 2008 and incorporated herein by reference.
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