Roof Deck Assembly and Method

Abstract

The invention provides a generally horizontal roof deck having a corner and two parapet walls meeting at the corner. A roofing membrane has a major portion adhered to the roof deck and a side portion adhered to the first parapet wall and an end portion adhered to the second parapet wall. A bead of caulk is located between the side portion and the end portion and a respective parapet wall. Termination bars are affixed to the each of the parapet walls by axially driven pins that capture the termination bars on top of the respective side or end portions along their upper edges. Also disclosed is a method for constructing a roof deck using termination bars and axially driven pins that do not require predrilled holes.

Claims

1. A method of securing a roll of roofing membrane having a length with an end portion and a width with a side portion to a substantially horizontal roof deck and to first and second vertical parapet walls meeting at a corner comprising; rolling out a length of roofing membrane on a roof deck with one side portion of the membrane extending upwardly so a bottom surface of the side portion abuts an inner surface of the first parapet wall, and a bottom surface of one end portion of the membrane extending upwardly so the bottom portion of the end portion abuts the inner surface of the second parapet wall, with the side portion and the end portion having an upper edge, adhering the major portion of the membrane to the roof deck, the side portion to the first parapet wall and the end portion to the second parapet wall, securing an elongate termination bar on the top surface of the side portion of the membrane with the top edge of the termination bar parallel to and proximate with the membrane side portion upper edge by axially driving a plurality of pins through the termination bar so that the pins extend through the termination bar and membrane side portion and are embedded into the first parapet wall, securing an elongate termination bar on the top surface of the end portion of the membrane with the top edge of the termination bar parallel to and proximate with the membrane end portion upper edge by axially driving a plurality of pins through the termination bar so that the pins extend through the termination bar and membrane end portion and are embedded into the second parapet wall.

2. The method of claim 1 further comprising cutting a slit in the membrane at the corner of the first and second parapet walls.

3. The method of claim 2 further comprising adhering a flap of one of the side portion or the end portion to the other of the side portion or the end portion before securing the termination bars.

4. The method of claim 1 further comprising creating a pig ear fold by folding a portion of the side portion and the end portion of the membrane near the corner and adhering the folded portion to the top surface of one of the side portion or the end portion before securing the termination bars.

5. The method of claim 1 further comprising the step of placing a bead of caulking between the back side of the side portion and the first parapet wall and placing a bead of caulking between the back side of the end portion and the second parapet wall prior to securing the termination bars to the respective parapet walls.

6. The method of claim 1 wherein the termination bar has a rectangular cross section.

7. The method of claim 1 wherein the termination bar has an L shaped cross section.

8. The method of claim 1 wherein the termination bars comprise a front side and a back side and a sealant layer with backing tape on the back side, the method further comprising removing backing tape from the sealant layer on the back side of each termination bar prior to placing the respective termination bars on the side portion and end portion.

9. The method of claim 1 wherein the termination bars have a series of apertures spaced at even intervals along their lengths.

10. The method of claim 1 also including the step of placing a bead of caulking along the top of each of the termination bars after they have been secured to their respective parapet walls.

11. A roofing assembly comprising: a generally horizontal roof deck having a corner; a first parapet wall having an inner surface extending upwardly from one side of the roof deck; a second parapet wall having an inner surface extending upwardly from a second side of the roof deck normal to the first side and meeting the first parapet wall at the corner of the roof deck; a thermoplastic roofing membrane having a major portion extending horizontally and adhered to the roof deck, with a side portion of the roofing membrane extending upwardly along the inner surface of the first parapet wall, said side portion having a top edge, and with an end portion of the roofing membrane extending upwardly along the inner surface of the second parapet wall, the end portion also having a top edge; a horizontal bead of caulk between the inner surface of the first parapet wall and the bottom surface of the side portion immediately below the top edge of the side surface, and between the inner surface of the second parapet wall and the bottom surface of the end portion immediately below the top edge of the end portion; a first elongate termination bar secured to the top surface of the side portion of the roofing membrane so the top edge of the first termination bar is parallel to and proximate with the top edge of the side portion of the roofing membrane by a plurality of axially driven steel pins through the termination bar and side portion of the roofing membrane and into the first parapet wall; and a second elongate termination bar secured top the top surface of the end portion of the roofing membrane so the top edge of the second termination bar is parallel to and proximate with the top edge of the end portion of the roofing membrane by a plurality of axially driven steel pins through the termination bar and end portion of the roofing membrane and into the second parapet wall.

12. The roofing assembly of claim 11 wherein the pins have a head, a point and a smooth shank.

13. The roofing assembly of claim 12 wherein the pins are made of hardened steel and are coated with a weather resistant coating.

14. The roofing assembly of claim 13 wherein the pins also have a washer under the head of the pin.

15. The roofing assembly of claim 11 wherein the termination bars backsides have a sealant layer attached thereto and the pins are also drive through the sealant layer.

16. The roofing assembly of claim 11 also comprising a bead of caulking above each termination bar.

17. The roofing assembly of claim 11 wherein each termination bar has a rectangular cross section.

18. The roofing assembly of claim 11 wherein each termination bar has an L shaped cross section.

19. The roofing assembly of claim 11 wherein the termination bars have a series of apertures spaced at even intervals along their lengths.

20. The roofing assembly of claim 11 wherein at the corner, a portion of one of the end portion or side portion of the membrane is folded over onto the top surface of the end portion or side portion and adhered to the top surface of the end portion or side portion.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a perspective view of a portion of a roof deck assembly of the invention.

[0020] FIG. 2 is a stylized sectional view of parapet wall with membrane attached by one embodiment of the invention.

[0021] FIG. 3 is a stylized sectional view of a parapet wall with membrane attached by another embodiment of the invention.

[0022] FIG. 4 is a drawing depicting a pin being driven through a termination bar by an ITW Ramset T3 tool.

[0023] FIGS. 5a-5d are perspective views of a stylized roof deck assembly showing various steps during construction of one embodiment of the invention.

DESCRIPTION OF A PREFERRED EMBODIMENT

[0024] Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Wherever possible, corresponding or similar reference numbers will be used throughout the drawings to refer to the same or corresponding parts. Moreover, references to various elements described herein, are made collectively or individually when there may be more than one element of the same type. However, such references are merely exemplary in nature. It may be noted that any reference to elements in the singular may also be construed to relate to the plural and vice-versa without limiting the scope of the disclosure to the exact number or type of such elements unless set forth explicitly in the appended claims. The terms configured and configuration may be used herein to refer to a specified arrangement, or a structural size and shape.

[0025] FIG. 1 shows a portion of a roof deck assembly with the inventive structure. Adhered to the base or substrate of the generally horizontal or flat roof are long sheets of thermoplastic membrane 12 that are originally placed on the roof deck substrate in a roll and rolled out. The terms horizontal or flat roof in this context also include a roof with a slight pitch, provided it is appropriate to be covered and sealed with a membrane covering. Commonly, each sheet of the membrane is 8 or 10 feet wide and 100 feet long. In order to cover a large roof, various sheets can be placed side by side and connected with overlapping seams. The membrane is preferably made of a thermoplastic such as EPDM, TPO or PVC and is manufactured and sold by various companies such as Firestone, Carlisle or Sarnafil.

[0026] Along at least one side of the roof deck is a first sidewall, such as a parapet wall 16 that extends upwardly vertically from the roof deck. In one embodiment, the parapet wall extends approximately 24 inches above the roof deck. The wall may be concrete or composite block or poured-in-place concrete. A side portion 18 of the membrane 12 is laid up against the inside surface of the parapet wall 16 as shown in FIGS. 1 and 5a. In a preferred embodiment, the side portion is approximately or slightly less than 24 inches wide so that the top edge 26 of the membrane is coplanar or even more preferably slightly below the top of the first parapet wall 16.

[0027] FIGS. 1 and 5 also show a second sidewall 30 such as a parapet wall normal to the first parapet wall 16 and meeting the first parapet wall at a corner 32 An end portion 34 of the membrane sheet 12 extends upwardly from the junction of the roof deck substrate and the second parapet wall so that the top edge 40 of the end portion 34 is coplanar or more preferably slightly below the top of the second parapet wall 30.

[0028] In one embodiment, a bead 24 of water block caulking or mastic is run in a generally horizontal line along the front face of the first parapet wall. The caulking will lie between the backside of the upper portion of the side portion 18 and the face of the first parapet wall 16 at a location immediately below the top edge 26 and behind the termination bar 20, when the side portion is pressed onto the first parapet wall and into the caulking 24. In similar manner, a second bead 42 of water block caulking or mastic is run in a generally horizontal line along the front face of the second parapet wall 30 at a location immediately below the top edge 40 and behind the termination bar 20. The caulking will be between the backside of the upper portion of the end portion 34 and the face of the second parapet wall 30 when the end portion is pressed onto the second parapet wall and into the caulking 42. One suitable caulk is Millennium Water Block Mastic (BP-300) sold by ADCO Roofing Products. This may enhance the water impenetrability between the backside of the membrane 12 and the surface of the parapet walls 16 and 30. In a further optional embodiment, another bead of water block may be run along the top edges 26 and 40 of the side portion 18 and end portion 34 and walls 16 and 30 respectively. Counterflashing, coping or a cover tape may also be used to enhance the water impenetrability of this top edge behind side portion 18 and end portion 34 of the membrane 12.

[0029] Termination bars 20 are secured onto the front side of the side portion 18 and end portion 34 of the membrane 12 at locations just below the top edges 26 and 40. The termination bars 20 are generally made of aluminum and are commonly 10 feet long and approximately an inch wide. In some embodiments, termination bars can be between 0.075 and 0.090 thick and have a constant cross section. In other embodiments, they may have an outwardly extending flange along the top, bottom or both edges to create 1 or U shaped cross sections to enhance their rigidity. In one embodiment, holes, or apertures are pre-drilled in the termination bars 20 every 6 or 8 inches along the length. The holes may be round or may be by slotted holes. Trufast termination bars sold by Altenloh, Brinck & Co. may be used in these embodiments. Alternatively, termination bars without holes may be used in other embodiments of this invention. The termination bars 20 without holes may have markings on their front sides every 6 or 8 inches for indication to the installer of where pins should be driven to install the termination bar 20. In other embodiments, the termination bars 20 will have no apertures and no markings on the front side and it is left up to the discretion of the installer to determine the proper spacing of the pins.

[0030] In one embodiment, the backside of the termination bars 20 has a sealant layer 28 (see FIG. 3) attached thereto. In one embodiment, the sealant layer 28 on the termination bar is a butyl rubber tape also approximately an inch wide. The butyl rubber tape also has a backing tape, made of coated paper for transport of the termination bar 20 with the sealant layer 28 to the job site. One suitable butyl rubber sealant is MB-10A Sealant Tape sold by GSSI Sealants. In termination bars with pre-drilled holes, the sealant layer may also be pre-drilled, or it may be continuous along the backside and thus cover up the backside of each hole.

[0031] In constructing the generally water impermeable roof deck, the side portion 18 and the end portion 34 of the membrane 12 are initially pressed against the respective parapet wall 16 and 30, and into a bead of water block caulking. Next, a collinear series of termination bars 20 is set proximate or just below the top edge 26 of the side portion and top edge 40 of the end portion 34. In one embodiment, each termination bar is initially held in position by an installer's hand or by pressing a driving gun 50 against the front face of the termination bar near a location approximately equidistant from each end. With this center point of the termination bar in position, an axial pin 36 is driven by the driving gun through the termination bar, the membrane and caulk and into the parapet wall without needing to drill a hole. With the approximate center of the termination bar at the proper height with respect to the top edges 26 and 40 of the membrane, the termination bar 20 can be leveled and other pins driven into the bar working outwardly in both directions so that the bar is at the proper height, generally proximate the top of the membrane along its entire length.

[0032] In one embodiment, the termination bar has a sealant layer on its backside. After the backing tape is removed from the sealant layer on the backside of each termination bar 20. The sealant layer temporarily adheres the termination bar 20 to the side portion 18 and end portion 34 of the membrane 12 so the termination bar can be located without the need of an installer to hold it in place. Once a termination bar 20 is properly located, pins 36 are driven through the termination bar 20 and into the parapet wall to securely attach the termination bar 20 and thus the membrane to the parapet wall 16. In a preferred embodiment, similar to the embodiment with no sealant layer, for each termination bar 20, a pin 36 is initially driven near the center of the bar and subsequent pins are driven to the left and right of the center, for example every 6, 8 or 12 depending on the installation preference. In addition, since holes in the termination bar are not necessary, pins 36 can be driven closer to each other in higher stressed areas, such as near corners. See FIG. 1.

[0033] In either embodiment, the termination bar 20 is only handled once by the installer. Each bar 20 is located and secured to the membrane and parapet wall without being moved. This is in sharp contrast with the current prevailing method that requires using the termination bar as a template to locate prospective boreholes, removing the bar, drilling the boreholes and then repositioning the bar for its ultimate attachment with fasteners in the predrilled boreholes. In either inventive embodiment, the top edge of the termination bar can be co-planar with the top edges 26 and 40 or slightly below the top edges 26 and 40. In either embodiment, additional beads of water block caulking may be placed along the top of the termination bar 20 and top edge 26 to enhance water impenetrability.

[0034] Axially driven pins 36, preferably of hardened steel with smooth shanks and washers 38 and corrosion resistant coating, are driven through the termination bar 20 to securely attach the bars 20 to the parapet wall 16 and sandwich the side and end portions 18 and 34 of the membrane 12, thus also holding the side portion 18 to the wall 16. The pins can be driven through the pre-drilled holes in termination bars having holes, or they can be driven directly through termination bars without holes. However, there is no need for drilling boreholes into the parapet walls, as the axially driven pins will provide sufficient holding power when being axially driven into the parapet wall by the axial driver. In one preferred embodiment, a T3 combustion tool sold by ITW Ramset is used to drive a complementary 1, 1.125, or 1.25 smooth sided straight shank pin 36 with washer 38 and Climaseal weather resistant coating. In other embodiments, powder actuated tools or electrically actuated axial driver tools may be used to drive complementary corrosion resistant pins, such as pins made by Powers with Permaseal coating or those made by Elco with Stalgard coating.

[0035] FIGS. 5a-d depict various steps of embodiments of methods of constructing a roof deck assembly 10 in accordance with the present invention. The initial roof deck comprises a substrate, a first upstanding parapet wall 16, and a second upstanding parapet wall 30 normal to the first parapet wall with the walls meeting and forming a corner 32. In FIG. 5a, a membrane 12 is rolled out so that the major portion of the membrane covers the roof deck substrate and a side portion 18 extends upwardly on the first parapet wall 16 and an end portion 34 of the membrane extends upwardly on the second parapet wall 30.

[0036] The membrane is folded over 44 at the corner 32 to accommodate the extra membrane material at the corner. In one embodiment, the fold is made without cutting the membrane to form what is generally referred to as a pig ear fold. The fold is rotated onto the one of the side portion or the end portion. In the case of FIG. 5b, the fold is rotated onto the end portion so that for a short length, the end portion 34 has a double or triple thickness. In the area of additional thickness, a separate termination bar 20 may be used. In FIG. 5, the side portion and the end portion are both of equal height. However, it can be appreciated that one of the side portion or the end portion may extend higher than the other.

[0037] In another embodiment a slit or cut-out is cut into the membrane at or near the corner to allow for other folding procedures that would have less or no (as in FIG. 1) membrane material folded over and thus less layers of membrane at the fold area. Additional caulking, heating of the membrane to fuse it, or corner reinforcements (not shown) may be applied to the membrane at the slit or cut-out and around any folds in the corner areas in order to reduce the chance of water penetration.

[0038] FIG. 5c shows heat being applied by a heat gun 52 to the fold 44 to adhere the fold to one of the side portion or the end portion, in this case the end portion. The heat also reduces the chances of water penetration between the layers of the fold. Caulking may be placed between the layers.

[0039] FIG. 5d shows the termination bar 20 for the end portion installed. Longer pins 36 may be needed in order to ensure that the pins fully penetrate the wall and the termination bar is securely fastened in the area of the rotated fold. Also shown in FIG. 5d is the prospective location of the termination bar for the side portion. A bead of caulk 42 is being laid along the top edge 40 of the end portion 34 or along the top of the termination bar 20 or both. It can be appreciated that caulk will also be laid along top edge 26 the side portion 16 or the top edge of the termination bar 20 after that termination bar has been installed.

[0040] As seen in FIG. 2, the head of the pin captures the washer 38 to hold the termination bar 20 against the membrane 20. In FIG. 3, the sealant layer 28 may be slightly extruded into and around the hole in the termination bar 20 to enhance the water impenetrability. In similar fashion, the water block 24 may also be extruded around the holes in the membrane 12 and the wall 16 to enhance the water impenetrability. FIG. 4 is a drawing of a pin 36 with a washer 38 being driven through a termination bar and membrane by an exemplary ITW Ramset T3 tool. A preferred location of the top of the termination bar to the top of the membrane is illustrated.

[0041] It can be appreciated that with the termination bar with the sealant layer attached, the bar can be temporarily mounted to the membrane during installation greatly reducing the amount of labor required to mount the termination bar. In addition, the axial driving of pins through the bar, or through holes in the bar is much easier and quicker than drilling holes in the wall and then pounding in Zamac fasteners.

[0042] In summary, in one embodiment, the invention provides a new roof deck assembly achieved through a new and novel method comprising the steps of: [0043] 1. Put a horizontal bead of Water Block caulk along the parapet wall approximately two feet above the roof deck and roll or slide the membrane up and onto the Water Block caulk is between the wall and the backside of the membrane. [0044] 2. Optionally, if using a termination bar with a sealant layer on its backside, remove the paper backing tape from the sealant layer attached to the backside of a length of termination bar. [0045] 3. Place the length of termination bar with sealant backing up to a desired position near the edge of the membrane along the parapet wall and stick it into place. [0046] 4. Using a tool that will axially drive a weather resistant coated pin into concrete or masonry, such as a Ramset T3 SS Gas Tool, fire one washered pin into the sealant backed termination bar near its center, or if it has predrilled holes, into the center hole. [0047] 5. Repeat axially driving pins along the termination bar generally somewhere between every 6 to 12 achieve the desired on center fastening pattern. [0048] 6. Optionally, add a bead of sealant across the top of the termination bar or top of the membrane or both to keep water from penetrating the back of the bar and the back of the membrane.

[0049] Various embodiments disclosed herein are to be taken in the illustrative and explanatory sense, and should in no way be construed as limiting of the present disclosure. While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed machines, systems and methods without departing from the spirit and scope of what is disclosed. Such embodiments should be understood to fall within the scope of the present disclosure as determined based upon the claims and any equivalents thereof