The present apparatus and method relates in general to a plug that is used to repair and restore holes that a tenant drilled in the floor of the space that the tenant occupied during a tenancy.
A portion of the disclosure of this patent application may contain material that is subject to copyright protection. The owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyrights whatsoever.
Certain marks referenced herein may be common law or registered trademarks of third parties affiliated or unaffiliated with the applicant or the assignee. Use of these marks is by way of example and should not be construed as descriptive or to limit the scope of this invention to material associated only with such marks.
Typically, a condition in a lease contract between a commercial building owner and a tenant is that at the end of the lease the tenant must return the leased premises in the same condition that it was in at the time the tenant took possession, save for normal wear and tear. During the course of a tenancy, a lessee will typically cause numerous holes to be drilled into the concrete floor and/or ceiling of his suite to accommodate the routing of electrical wires, plumbing pipes, voice cables, and other such items that run through the floors. In the great majority of mid and high rise office buildings, these floors are constructed of a lightweight aggregate poured on a metal underlayment or pan. This flooring assembly provides a fire break between floors. When the tenant vacates the premises, the drilled holes during the tenancy are left wide open as a result of the removal of the wiring, plumbing, etc. that had been previously installed. This is potentially a breach of the fire control properties of the flooring assembly. These holes are typically three to four inches in diameter, but can range up to twelve inches or larger. Until recently, most property owners did not recognize this as a problem, and as a result did not require the vacating tenant to repair and restore these holes. More recently, it has been recognized, however, as an issue that must be remedied before a new tenant can take possession of the property.
There are several products on the market that can be used to restore the fire break properties of the flooring assembly. Most utilize a mechanical closure of the hole by installing an expandable metal plug or cap, and require that they be installed through the bottom of the hole. This solution often requires that access to the underside of the floor be granted by another tenant or the owner. Such access may be disruptive, cause security and liability issues, necessitate that the repair work be performed after normal working hours, and cause possible damage to another tenant's property. The parts and labor associated with these products tend to be rather expensive as well.
Another problem with other products is that the final repair results in a protruding floor surface. This is a design flaw that complicates future use of the floor where the protrusion is located.
Yet another problem related to repairing holes after a lease has expired is shoddy repair work. To honor the lease, a tenant may merely stuff a rag or other such material in the hole and then fill it with a plaster, such as FIX-IT-ALL™. Such a repair is insufficient, as there is nothing to keep the rag and plaster from falling through the floor into the suite below. Moreover, such a repair may be prone to water leaks and likely does not conform to the fire code, and testing these properties would be overly burdensome, defeating the purpose of the repair in the first place.
It is to these ends that the present apparatus and method has been developed.
To minimize the limitations in the prior art, and to minimize other limitations that will be apparent upon reading and understanding the present specification, the present apparatus describes a precast plug for sealing a hole in a floor comprising a concrete housing and at least one rod whereby the distal end of said at least one rod makes at least one protrusion from at least one edge of said concrete housing.
The present method and apparatus also describes a method for repairing a hole in a floor, comprising the steps of preparing a wet cement mixture, pouring said wet cement mixture into a form mold housing, installing into said form mold housing at least one rod whereby the distal end of said at least one rod makes at least one protrusion from at least one edge of said concrete housing, allowing said mixture to cure with said at least one rod in place, thereby creating a precast plug, grinding at least one groove into said floor to house the distal end of said at least one rod, coating said precast plug's edges with a sealant, placing said precast plug into said hole such that the distal end of said at least one rod rests in said at least one groove, and allowing said sealant to cure.
It is an objective of the present apparatus and method to seal a hole in a floor such as to make it fire resistant, water resistant, and structurally sound.
Is another objective of the present apparatus and method to allow for ease of installation, making a repair job quick and efficient.
It is yet another objective of the present apparatus and method to repair a hole in a floor, such that the apparatus is flush with the floor's surface.
These and other advantages and features of the present apparatus and method are described herein with specificity so as to make the present apparatus and method understandable to one of ordinary skill in the art.
Elements in the FIGS. have not necessarily been drawn to scale in order to enhance their clarity and improve understanding of these various elements and embodiments of the apparatus and method. Furthermore, elements that are known to be common and well understood to those in the industry are not depicted in order to provide a clear view of the various embodiments of the apparatus and method.
In the following discussion that addresses a number of embodiments and applications of the present apparatus and method, reference is made to the accompanying drawings that form a part thereof, where depictions are made, by way of illustration, of specific embodiments in which the apparatus and method may be practiced. It is to be understood that other embodiments may be utilized and changes may be made without departing from the scope of the apparatus and method.
Precast plug 101 may be constructed off site, i.e., from where the hole it intends to repair is located. However, this is not to limit the scope of precast plug 101. If a particular location required precast plug 101 to be made on site, such as a remote location and time was of the essence, this could be accomplished by making precast plug 101 at the site of hole 102.
In either case, precast plug 101 may be constructed of the same material as floor 103, which in the typical scenario will be a lightweight aggregate or other cement, which has fire and water resistant properties in addition to structural integrity, similar to floor 103. For example, Rapid Set® Cement All™ may be used to construct precast plug 101, but this is not to limit the scope of the apparatus and method. In another embodiment, precast plug 101 may be constructed of plastic, steel, or any other material suitable for filling a cavity. Where a cement like material is used to prepare precast plug 101, it may be mixed with the requisite amount of water (and coloring if desired) to form a wet mixture. This mixture may then be poured into a form mold.
The shape and size of form mold, and therefore precast plug 101, may vary depending upon the type of repair job. The embodiment depicted in
Before the cement mixture cures in the properly sized form mold, an appropriately sized rod 104 may be inserted into the wet cement housing of precast plug 101. Rod 104 may be comprised of any number of materials, including steel, plastic, multiples of rods, etc., as will be further discussed below. As depicted in
Precast plug 101 may also be embossed as depicted in
Precast plug 101 may also be stamped, as depicted in
Logo 105 and size indicator 106 may also be used to communicate other desirable information, such as implied information. Implied information may be apprised from both logo 105 and size indicator 106 to indicate to appropriate authorities, such as a fire marshal, that the plug that is going to be installed or already has been installed into floor 103 is of such a quality and design that it meets appropriate fire codes and/or other safety regulations.
Further depicted in
In another embodiment of the apparatus and method, rather than utilizing the technique of grooves 107, holes may be drilled in either side of the wall of hole 102, beneath the surface of floor 103. Similar tools may be employed as may be used to carve out grooves 107, including a right angle drill. Utilizing this technique, it would be possible not only to repair a hole in a floor below ones feet, but also a floor above one's head, i.e. a ceiling. In such a case, various embodiments of precast plug 101 may include logo 105 and size indicator 106 embossed or otherwise marked on the bottom side of precast plug 101, or rather on both ends of precast plug 101 to make it visible to one viewing precast plug 101 from above or below. The “wings” of rod 104 may also extend from a more central portion of precast plug 101 rather than being substantially flush with the top of precast plug 101. To accommodate the “wings” of rod 104 it may be necessary to drill deeper holes on either side of hole 102. After drilling the holes, one “wing” of rod 104 may be fully inserted into said drilled hole such that the side of precast plug 101 and interior of hole 102 are flush and the other “wing” of rod 104 is fully within hole 102 and extended in the direction of the drilled hole that it is to occupy. The entirety of precast plug 101 may then be laterally moved in that direction such that it is centered in hole 102 and both “wings” of rod 104 come to rest in either drilled hole.
Before appropriately sized precast plug 101 is fitted into hole 102, however, sealant 201 may be beaded around the exterior wall of precast plug 101 and the interior wall of hole 102, after which precast plug 101 may be fitted into hole 102. Once the “wings” of rod 104 are snugly within grooves 107, sealant 201 may be inserted into any voids such that hole 102 is completely full and/or excess sealant 201 may be wiped away from the area of hole 102. Sealant 201 may also be applied over the top of the “wings” of rod 104 to further secure rod 104 in place. After sealant 201 cures, what is left is a fire resistant, water resistant, and structurally sound repair job, which may be impliedly indicated by logo 105 as discussed above. As an example, 3M™ Fire Barrier Sealant IC 15WB+ may be used as sealant 201, however, this is not to limit the scope of the apparatus and method. Other products with similar properties may be employed in lieu of said brand.
The front elevation cross section view in
However, the embodiments depicted in
In yet another embodiment, four separate rods 104 similar to the rods 104 depicted in
Finally, in
The present application claims priority under 35 U.S.C. §119(e) to U.S. Provisional Patent Application Ser. No. 61/650,179 filed on 22 May 2012, the disclosure of which is incorporated herein by reference in its entirety.
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