1. Field of the Invention
This invention relates to an improved anchoring arrangement for use in conjunction with cavity walls having an inner wythe and an outer wythe. More particularly, the invention relates to construction accessory devices, namely, veneer ties with high-strength rectangular wire veneer ties. The veneer ties are for emplacement in the outer wythe and are further accommodated by receptors in the cavity, which receptors extend from the inner wythe to capture the specially configured pintles hereof. The invention is applicable to structures having an outer wythe of brick or stone facing in combination with an inner wythe of either masonry block or dry wall construction.
2. Description of the Prior Art
In the past, investigations relating to the effects of various forces, particularly lateral forces, upon brick veneer masonry construction demonstrated the advantages of having high-strength wire anchoring components embedded in the bed joints of anchored veneer walls, such as facing brick or stone veneer.
Prior tests have shown that failure of anchoring systems frequently occur at the juncture between the pintle of the veneer tie and the receptor portion of the wall anchor. This invention addresses the need for a high-strength pintle suitable for use with both a masonry block and dry wall construction and provides a strong pintle-to-receptor connection.
Early in the development of high-strength anchoring systems a prior patent, namely U.S. Pat. No. 4,875,319 ('319), to Ronald P. Hohmann, in which a molded plastic clip is described that ties together reinforcing wire and a veneer tie. The assignee of '319, Hohmann & Barnard, Inc., now a MiTek-Berkshire Hathaway company, successfully commercialized the device under the SeismiClip trademark. For many years the white plastic clip tying together the veneer anchor and the reinforcement wire in the outer wythe has been a familiar item in commercial seismic-zone buildings.
Additionally, the high-strength pintle hereof has been combined with the swaged back leg as shown in the inventor's patent, U.S. Pat. No. 7,325,366. The combination item reduces the number of “bits and pieces” brought to the job site and simplifies installation.
Recently, there have been significant shifts in public sector building specifications which have resulted in architects and architectural engineers requiring larger and larger cavities in the exterior cavity walls of public buildings. These requirements are imposed without corresponding decreases in wind shear and seismic resistance levels or increases in mortar bed joint height. Thus, the wall anchors needed are restricted to occupying the same ⅜-inch bed joint height in the inner and outer wythes. Thus, the veneer facing material is tied down over a span of two or more times that which had previously been experienced. Exemplary of the public sector building specification is that of the Energy Code Requirement, Boston, Mass. (See Chapter 13 of 780 CMR, Seventh Edition). This Code sets forth insulation R-values well in excess of prior editions and evokes an engineering response opting for thicker insulation and correspondingly larger cavities. The use of the novel rectangular wire veneer tie of the present invention provides a greater volumetric occupancy ratio within the same ⅜-inch bed joint than a corresponding round wire veneer tie. Further, the rectangular veneer tie provides a locking fit within the rounded anchor interconnection location.
The use of wire formatives in cavity wall construction have been limited by the mortar layer thicknesses which, in turn are dictated either by the new building specifications or by pre-existing conditions, e.g., matching during renovations or additions the existing mortar layer thickness. While arguments have been made for increasing the number of the fine-wire anchors per unit area of the facing layer, architects and architectural engineers have favored wire formative anchors of sturdier wire. On the other hand, contractors find that heavy wire anchors, with diameters approaching the mortar layer height specification, frequently result in misalignment. Thus, these contractors look towards substituting thinner gage wire formatives which result in easier alignment of courses of block to protect against wythe separation. A balancing of mortar and wire formatives needs to be struck to ensure veneer tie stability within the outer wythe. The present high strength veneer tie greatly assists in maintaining this balance in the mortar joint.
The following patents are believed to be relevant and are disclosed as being known to the inventor hereof:
It is noted that these devices are generally descriptive of wire-to-wire anchors and wall ties and have various cooperative functional relationships with straight wire runs embedded in the interior and/or exterior wythe.
U.S. Pat. No. 3,377,764—Storch—Issued Apr. 16, 1968 Discloses a bent wire, tie-type anchor for embedment in a facing exterior wythe engaging with a loop attached to a straight wire run in a backup interior wythe.
U.S. Pat. No. 4,021,990—Schwalberg—Issued May 10, 1977 Discloses a dry wall construction system for anchoring a facing veneer to wallboard/metal stud construction with a pronged sheetmetal anchor. Like Storch '764, the wall tie is embedded in the exterior wythe and is not attached to a straight wire run.
U.S. Pat. No. 4,373,314—Allan—Issued Feb. 15, 1983 Discloses a vertical angle iron with one leg adapted for attachment to a stud; and the other having elongated slots to accommodate wall ties. Insulation is applied between projecting vertical legs of adjacent angle irons with slots being spaced away from the stud to avoid the insulation.
U.S. Pat. No. 4,473,984—Lopez—Issued Oct. 2, 1984 Discloses a curtain-wall masonry anchor system wherein a wall tie is attached to the inner wythe by a self-tapping screw to a metal stud and to the outer wythe by embedment in a corresponding bed joint. The stud is applied through a hole cut into the insulation.
U.S. Pat. No. 4,598,518—Hohmann—Issued Jul. 8, 1986 Discloses a dry wall construction system with wallboard attached to the face of studs which, in turn, are attached to an inner masonry wythe. Insulation is disposed between the webs of adjacent studs.
U.S. Pat. No. 4,869,038—Catani—Issued Sep. 26, 1989 Discloses a veneer wall anchor system having in the interior wythe a truss-type anchor, similar to Hala et al. '226 supra, but with horizontal sheetmetal extensions. The extensions are interlocked with bent wire pintle-type wall ties that are embedded within the exterior wythe.
U.S. Pat. No. 4,875,319—Hohmann—Issued Oct. 24, 1989 Discloses a seismic construction system for anchoring a facing veneer to wallboard/metal stud construction with a pronged sheetmetal anchor. Wall tie is distinguished over that of Schwalberg '990 and is clipped onto a straight wire run.
U.S. Pat. No. 5,035,099—Lapish—Issued Jul. 30, 1991 Discloses a multi-part wall tie connector for use with cavity walls. The device has a focus on allowing in-plane movement of a veneer. Several components of the system are ductile, allowing the ability to flex back and forth in a bending manner.
U.S. Pat. No. 5,454,200—Hohmann—Issued Oct. 3, 1995 Discloses a facing anchor with straight wire run and mounted along the exterior wythe to receive the open end of wire wall tie with each leg thereof being placed adjacent one side of reinforcement wire. As the eye wires hereof have scaled eyelets or loops and the open ends of the wall ties are sealed in the joints of the exterior wythes, a positive interengagement results.
U.S. Pat. No. 6,668,505—Hohmann et al.—Issued Dec. 30, 2003 Discloses high-span and high-strength anchors and reinforcement devices for cavity walls combined with interlocking veneer ties are described which utilize reinforcing wire and wire formatives to form facing anchors, truss or ladder reinforcements, and wall anchors providing wire-to-wire connections therebetween.
U.S. Pat. No. 6,789,365—Hohmann et al.—Issued Sep. 14, 2004 Discloses side-welded anchor and reinforcement devices for a cavity wall. The devices are combined with interlocking veneer anchors, and with reinforcements to form unique anchoring systems. The components of each system are structured from reinforcing wire and wire formatives.
U.S. Pat. No. 6,851,239—Hohmann et al.—Issued Feb. 8, 2005 Discloses a high-span anchoring system described for a cavity wall incorporating a wall reinforcement combined with a wall tie which together serve a wall construct having a larger-than-normal cavity. Further the various embodiments combine wire formatives which are compressively reduced in height by the cold-working thereof. Among the embodiments is a veneer anchoring system with a low-profile wall tie for use in a heavily insulated wall.
U.S. Pat. No. 7,017,318—Hohmann, et al.—Issued Mar. 28, 2006 Discloses an anchoring system with low-profile wall ties in which insertion portions of the wall anchor and the veneer anchor are compressively reduced in height.
U.S. Pat. No. 7,325,366—Hohmann, Jr. et al.—Issued Feb. 5, 2008 Discloses snap-in veneer ties for a seismic construction system in cooperation with low-profile, high-span wall anchors.
None of the above anchors or anchoring systems provide a veneer tie having a high-strength rectangular veneer tie for fulfilling the need for enhanced compressive and tensile properties and high-strength interconnection. This invention relates to an improved anchoring arrangement for use in conjunction with cavity walls having an inner wythe and an outer wythe and meets the heretofore unmet needs described above.
In general terms, one embodiment of the invention is a high-strength pintle veneer tie and an anchoring system utilizing the same for cavity walls having an inner and outer wythe. The system includes a rectangular wire-formative veneer tie for emplacement in the outer wythe. The high-strength construction system hereof is applicable to construction of a wall having an inner wythe which, can either be of dry wall construction or masonry block, and an outer wythe, as well as, to insulated and non-insulated structures and high-span construction. The wythes are in a spaced apart relationship and form a cavity therebetween. In the disclosed system, a unique combination of a wall anchor (attachable to either ladder- or truss-type reinforcement for masonry inner wythes or to metal studs of a dry wall construct or directly to a masonry inner wythe), a wire veneer tie, and, optionally, a continuous wire reinforcement is provided. The invention contemplates that the veneer ties are wire formatives with a rectangular cross-section with high-strength pintles depending into the wall cavity for connections between the veneer tie and the wall anchor.
In the embodiments of this invention, the veneer tie is formed from a rectangular wire formative and interconnected within the apertures of the wall anchor. The interconnection restricts movement in the x- and z-axes and maintains a high-strength connection. An alternative design veneer tie has a square cross-section which provides greater volumetric occupancy than a traditional circular wire. The square wire pintles are optionally compressed to increase the tensile and compressive strength of the wire.
The veneer tie is positioned so that the insertion end thereof is embedded in the bed joint of the outer wythe. The construction of the veneer tie results in an orientation upon emplacement so that the widest part of the pintle is subjected to compressive and tensile forces. The insertion end of the veneer tie is optionally compressed to provide a high strength connection within the bed joint and is positioned on the outer wythe so that a continuous reinforcement wire can be snapped into and secured to the outer wythe. The snap-in feature of the anchor here replaces the traditional function of the seismic clip for accommodating a straight wire run (see U.S. Pat. No. 4,875,319) and receiving the open end of the box tie.
It is an object of the present invention to provide in an anchoring system having an outer wythe and an inner wythe, a high-strength veneer tie that interengages a wall anchor which system further includes a rectangular wire veneer tie.
It is another object of the present invention to provide labor-saving devices to simplify seismic and nonseismic high-strength installations of brick and stone veneer and the securement thereof to an inner wythe.
It is yet another object of the present invention to provide a veneer tie that increases volumetric occupancy in the bed joint.
It is a further object of the present invention to provide an anchoring system for cavity walls comprising a limited number of component parts that are economical of manufacture resulting in a relatively low unit cost.
It is yet another object of the present invention to provide an anchoring system which restricts lateral and horizontal movements of the facing wythe with respect to the inner wythe, but is adjustable vertically.
It is a feature of the present invention that the veneer tie, after being inserted into the receptors therefor, pintles are oriented so that the widest portion thereof is subjected to compressive to tensile forces.
It is another feature of the present invention that the veneer ties are utilizable with either a masonry block having aligned or unaligned bed joints and for a dry wall construct that secures to a metal stud.
Other objects and features of the invention will become apparent upon review of the drawings and the detailed description.
In the following drawings, the same parts in the various views are afforded the same reference designators.
In the embodiments described herein the veneer ties are formed from high-strength rectangular wire formatives which provide a greater volumetric occupancy ratio within the same ⅜-inch bed joint than a than that of a corresponding traditional cylindrical wire formative. The use of a rectangular wire provides a locking fit within the rounded anchor interconnection area. The use of a rectangular wire within the circular enclosure restricts movement along the x- and z-axes.
Before proceeding to the detailed description, the following definitions are provided. For purposes of defining the invention at hand, compression of the wire formative occurs through cold working so that the resultant body is substantially semicircular at the edges and has flat surfaces therebetween. In use, the rounded edges are aligned so as to receive compressive forces transmitted from the veneer or outer wythe, which forces are generally normal to the facial plane thereof. In the discussion that follows the width of the compressed interconnecting portion is also referred to as the major axis and the thickness is referred to as the minor axis.
As the compressive forces are exerted on the edges of the compressed portions, it withstands forces greater than uncompressed wire formatives formed from the same gage wire. Information reflecting the enhancement represented by the cold-worked wire formatives is included hereinbelow.
In accordance, with the Building Code Requirements for Masonry Structures, ACI 530-05/ASCE 5-05/TMS 402-05, Chapter 6, each wythe of the cavity wall structure is designed to resist individually the effects of the loads imposed thereupon. Further, the veneer (outer wythe) is designed and detailed to accommodate differential movement and to distribute all external applied loads through the veneer to the inner wythe utilizing masonry anchors and ties.
The description which follows is of three embodiments of anchoring systems utilizing the pintle veneer tie devices of this invention, which devices are suitable for nonseismic and seismic cavity wall applications. Two of the embodiments apply to cavity walls with masonry block inner wythes, and the remaining embodiment to a cavity wall with a dry wall (sheetrock) inner wythe. The wall anchor of the first embodiment is adapted from that shown in U.S. Pat. No. 6,789,365 of the inventors hereof.
Referring now to
In this embodiment, successive bed joints 26 and 28 are formed between courses of blocks 16 and the joints are substantially planar and horizontally disposed. Also, successive bed joints 30 and 32 are formed between courses of facing brick 20 and the joints are substantially planar and horizontally disposed. For each structure, the bed joints 26, 28, 30 and 32 are specified as to the height or thickness of the mortar layer and such thickness specification is rigorously adhered to so as to provide the uniformity inherent in quality construction. Selected bed joint 26 and bed joint 30 are constructed to align, that is to be substantially coplanar, the one with the other.
For purposes of discussion, the exterior surface 24 of the backup wall 14 contains a horizontal line or x-axis 34 and an intersecting vertical line or y-axis 36. A horizontal line or z-axis 38, normal to the xy-plane, also passes through the coordinate origin formed by the intersecting x- and y-axes. In the discussion which follows, it will be seen that the various anchor structures are constructed to restrict movement interfacially—wythe vs. wythe—along the z-axis and, in this embodiment, along the x-axis. The device 10 includes a wall anchor 40 constructed for embedment in bed joint 26, which, in turn, includes a free end with one or more receptor portions 58 having two legs or traverse wire member 54 extending into cavity 22. Further, the device 10 includes a wire formative veneer tie or anchor 44 for embedment in bed joint 30.
The wall anchor 40 is shown in
At intervals along the wall reinforcement 46, spaced pairs of transverse wire members or legs 54 are attached thereto and are attached to each other by a rear leg 56 therebetween or directly to the straight wire member as shown in
Upon installation, the eye or aperture 60 of receptor portion 58 is constructed to be within a substantially horizontal plane normal to exterior surface 24. The aperture 60 is dimensioned to accept a pintle of the veneer tie or anchor 44 therethrough and has a slightly larger opening than that required to accommodate the pintle. This relationship minimizes the movement of the construct in along a z-vector and in an xz-plane. For positive engagement, the aperture 60 of receptor portion 58 is sealed forming a closed loop. Alternatively, a single eyelet 259 with a substantially oval opening 261, as shown in
The veneer tie 44 is, when viewed from a top or bottom elevation, generally U-shaped and is dimensioned to be accommodated by the pair of eye wires 58 or a single eyelet 259 previously described. The tie 44 is a wire formative with a substantially rectangular cross-section and has two interengaging end portions or pintles 62 and 64, two side cavity portions 66 and 68, and an insertion end portion 70. As more clearly seen in
The cross-sectional illustrations show the manner in which wythe-to-wythe and side-to-side movement is limited by the close fitting relationship between the pintles and the receptor openings. Alternatively, a veneer tie 144 with a substantially square cross-section, as shown in
The veneer tie insertion portion is optionally compressively reduced as shown in
Upon compression, a pattern or corrugation 257 is impressed on insertion portion 270 and, upon the mortar of bed joint 30 flowing around the insertion portion 270, the mortar flows into the corrugation 257. For enhanced holding, the corrugations 257 are, upon installation, substantially parallel to x-axis 34. In this embodiment, the pattern 247 is shown impressed on only one side thereof; however, it is within the contemplation of this disclosure that corrugations or other patterning could be impressed on other surfaces of the insertion portion 270. Other patterns such as a waffle-like, cellular structure and similar structures optionally replace the corrugations. With the veneer tie 244 constructed as described, the veneer tie 244 is characterized by maintaining substantially all the tensile strength as prior to compression while acquiring a desired low profile.
The insertion portion 270 is optionally configured (as shown in
The description which follows is of a second embodiment of the high-strength anchoring system. For ease of comprehension, where similar parts are used reference designators “100” units higher are employed. Thus, the veneer tie 144 of the second embodiment is analogous to the veneer tie 44 of the first embodiment.
Referring now to
For purposes of discussion, the exterior surface 125 of the interior wythe 114 contains a horizontal line or x-axis 134 and an intersecting vertical line or y-axis 136. A horizontal line or z-axis 138 also passes through the coordinate origin formed by the intersecting x- and y-axes. The system 110 includes a dry wall anchor 140 constructed for attachment to vertical channel members 124, for embedment in joint 130 and for interconnecting with the veneer tie 144.
Reference is now directed to the L-shaped, surface-mounted sheetmetal bracket or wall anchor 140 comprising a mounting portion or base plate member 146 and free end projecting or extending portion 148 into the cavity 122. The projecting or extending portion(s) 148 is contiguous with the base plate member 146 so as to have, upon installation, a horizontally disposed elongated aperture 150 which provides for wire-tie-receiving receptors 151. The aperture 150 is formed in plate member 146. Alternatively, Upon installation, the projecting portion 148 is thus disposed substantially at right angles with respect to the plate member 146. To ease tolerance, receptors 151 may be slightly elongated along the x-axis thereof. The plate member 146 is also provided with mounting holes 156 at the upper and lower ends thereof. The interengaging end portions 162, 164 are dimensioned to be secured within the aperture(s) 150, 151.
The projecting portion 148 is spaced from the plate member 146 and adapted to receive the interengaging end portions 162, 164 of veneer tie 144 therewithin. In the fabrication of the dry wall as the inner wythe of this construction system 110, the channel members 124 are initially secured in place. In this regard, the channel members 124 may also comprise the standard framing member of a building. Sheets of exterior wallboard 116, which may be of an exterior grade gypsum board, are positioned in abutting relationship with the forward flange of the channel member 124. While the insulating layer 126 is shown as panels dimensioned for use between adjacent column 124, it is to be noted that any similarly suited rigid or flexible insulating material may be used herein with substantially equal efficacy.
After the initial placement of the flexible insulation layer 126 and the wallboard 116, the veneer anchors 140 are secured to the surface of the wallboard 116 in front of channel members 124. Thereafter, sheetmetal screws 127 are inserted into the mounting holes 156 to fasten the anchor 140 to the channel member 124.
The veneer tie 144 is, when viewed from a top or bottom elevation, generally U-shaped and is dimensioned to be accommodated by the wall anchor 140. The tie 144 is a wire formative with a substantially square cross-section and has two interengaging end portions or pintles 162 and 164, two side cavity portions 166 and 168, and an insertion end portion 170. Alternatively, a veneer tie 44 with a substantially rectangular cross-section, as shown in
The veneer tie insertion portion is optionally compressively reduced as shown in
Upon compression, a pattern or corrugation 257 is impressed on insertion portion 270 and, upon the mortar of bed joint 130 flowing around the insertion portion 270, the mortar flows into the corrugation 257. For enhanced holding, the corrugations 257 are, upon installation, substantially parallel to the x-axis 134. In this embodiment, the pattern 247 is shown impressed on only one side thereof; however, it is within the contemplation of this disclosure that corrugations or other patterning could be impressed on other surfaces of the insertion portion 270. Other patterns such as a waffle-like, cellular structure and similar structures optionally replace the corrugations. With the veneer tie 244 constructed as described, the veneer tie 244 is characterized by maintaining substantially all the tensile strength as prior to compression while acquiring a desired low profile.
The insertion portion 270 is optionally configured (as shown in
The description which follows is of a third embodiment of the high-strength pintle anchoring system. In this embodiment, the wall anchor portion is adapted from the high-span anchor and wall reinforcement device of U.S. Pat. No. 6,668,505 to Hohmann, et al. For ease of comprehension, where similar parts are shown, reference designators “200” units higher than those previously employed are used. Thus, the veneer tie 244 of the third embodiment is analogous to the veneer tie 44 of the first embodiment. Referring now to
The backup wall is insulated with strips of insulation 223 attached to the cavity surface of the backup wall and has seams 225 between adjacent strips coplanar with adjacent bed joints. In this embodiment, the cavity 222 is larger-than-normal and has a 5-inch span.
The wall anchor 240 is shown in
Pairs of wire members or extended leg portions 254 extend into the cavity 222 and have a free end 249 opposite the attachment end 245 and receptor portions 259 (single as shown in
The veneer tie 244 is, when viewed from a top or bottom elevation, generally U-shaped and is dimensioned to be accommodated by the pair of eyelets 58 or a single eyelet 259 previously described. The tie 244 is wire formative with a substantially rectangular cross-section and has two interengaging end portions or pintles 262 and 264, two side cavity portions 266 and 268, and an insertion end portion 270.
The cross-sectional illustrations show the manner in which wythe-to-wythe and side-to-side movement is limited by the close fitting relationship between the pintles and the receptor openings. Alternatively, a veneer tie 144 with a substantially square cross-section, as shown in
The veneer tie insertion portion is optionally compressively reduced as shown in
Upon compression, a pattern or corrugation 257 is impressed on insertion portion 270 and, upon the mortar of bed joint 230 flowing around the insertion portion 270, the mortar flows into the corrugation 257. For enhanced holding, the corrugations 257 are, upon installation, substantially parallel to x-axis 234. In this embodiment, the pattern 247 is shown impressed on only one side thereof; however, it is within the contemplation of this disclosure that corrugations or other patterning could be impressed on other surfaces of the insertion portion 270. Other patterns such as a waffle-like, cellular structure and similar structures optionally replace the corrugations. With the veneer tie 244 constructed as described, the veneer tie 244 is characterized by maintaining substantially all the tensile strength as prior to compression while acquiring a desired low profile.
The insertion portion 270 is optionally configured (as shown in
Because many varying and different embodiments may be made within the scope of the inventive concept herein taught, and because many modifications may be made in the embodiments herein detailed in accordance with the descriptive requirement of the law, it is to be understood that the details herein are to be interpreted as illustrative and not in a limiting sense.