|Publication number||US3672108 A|
|Publication date||Jun 27, 1972|
|Filing date||Aug 19, 1970|
|Priority date||Oct 30, 1968|
|Also published as||US3568391|
|Publication number||US 3672108 A, US 3672108A, US-A-3672108, US3672108 A, US3672108A|
|Inventors||Conway Donald J|
|Original Assignee||United States Gypsum Co|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (4), Referenced by (20), Classifications (18)|
|External Links: USPTO, USPTO Assignment, Espacenet|
United States Patent Conway [4 1 June 27, 1972 54] JOINT CONSTRUCTION  References Cited  Inventor: Donald J. Conway, Glenview, 111. UNITED STATES PATENTS  Assignee: United States Gypsum Company, Chicago, 2,856,766 10/1958 Ill. 2,922,385 l/1960 3,056,233 10/1962  Filed. Aug. 19, 1970 3,192,577 7/1965 Appl' 65351 I Primary Examiner-Price C. Faw,Jr.
Rehm. Application Data Attorney-George E. Verhage and John K. Wise  Division of Ser. No. 771,821, 0m. so, 1968, Pat. No. [571 ABSTRACT A stucco-covered, curtain wall construction employs a joint including an elongate L-shaped casing bead and an elongate  U.S.Cl ..52/367, 52/573 e er lly wing-shaped drainage cap member. The two joint  Int. Cl. ..E04b 1/70, E041" 13/06 components form a horizontally-disposed, structurally yield- Field Search 52/364, 3 ing joint between outer covering panel sections. The two joint components provide ventilation and water drainage between the windward and leeward sides of the wall.
7 Claims, 8 Drawing Figures P'A'TE'N'TEDJum I972 sum 1 or 2 Donald J. Conw INVI ENTOR.
BY John Kenneth Wise George E. Verhage Dana M. Schmidt ATTORNEYS PATENTEDquuzv m2 sum 2 or 2 Donald J. Conway INVENTOR.
S Y E N R 0 T A ew BUM hi m m m e M e n n m a JG V. B
JOINT CONSTRUCTION RELATION TO PENDING APPLICATIONS This application is a divisional application of my application Ser. No. 771,821 filed on Oct. 30, 1968, now U.S. Pat. No. 3,568,391.
BACKGROUND OF. THE INVENTION This invention relates to a water-shedding, expansible joint structure for use in a stucco-covered, curtain type, generally exterior wall. The term curtain wall" is applied to a type of building construction in which an exterior non-load bearing wall is supported in front of the structural frame like a curtain. More particularly, this invention relates to a casing bead and a drainage cap or flashing in a ventilated curtain wall construction providing water drainage and a degree of equalization of air pressure between the wall cavity and the surrounding atmosphere.
Curtain type, as well as some other exterior panel walls having an exposure to rain driven by winds having a velocity as high as 90 miles per hour in certain areas of the United States, have been vulnerable to admittance of wind-carried water as well as to insufficient drainage of accumulated water from the cavity of the wall, or the interval between the exterior wall and the inner, supporting framing shell of the wall construction.
oftentimes rain enters into the wall cavity wherever a joint line has not been sealed, or adequately sealed, against ingress of rain. Cracks, poorly designed joint lines or other types of leaky constructions which open to the atmosphere allow for admittance of water, and in many cases such constructions do not provide for drainage of water from the cavity of the wall.
The problem of infiltrated water has become crucial where the exposed wallarea is large and vulnerable to rain driven by high velocity winds. The problem often is aggravated in cases where the water entering the wall cavity accumulates to a sufficient degree to cause leakage into the interior of the building with resulting damage. Such damage includes corrosion to metal parts, wetting and compacting of insulation materials and damage to building interiors and furnishings. Also, in some cases water entering the wall cavity does not drain to the exterior of the building, but soaks down through the wall portions causing structural deterioration and discoloration to visible exterior portions of the wall.
Previously, in stucco as well as other types of curtain walls, various attempts have been made to overcome this problem. Such attempts have included high quality workmanship on existing constructions, the use of sealants and weepholes, and pressure equalization systems of various types.
In the normal use of the joint components provided by this invention, an elongate wing-shaped drainage cap is horizontally aligned on the exterior of a building frame or shell which may be formed of plaster-board sheathing. The cap has a central, flexible joint portion which serves as a drainage ledge and which is V-shaped in cross section. The central V is integrally formed with opposed coplanar wings, either or both of which may be fastened to the sheathing.
A casing bead of generally L-shaped configuration is set in place with the short leg of the L resting on the upper surface of the cap joint portion. The back of the bead has a plurality of flutes or grooves formed therein and extends above the upper wing of the drainage cap. The bend is secured in place, and stucco or other cementitious material may be formed into a panel over the sheathing on the short leg of the bead which serves as a panel edging and thickness gauge. Preformed panels may also be secured in place on the bead leg. Water formed in or entering into the wall cavity may readily drain to the. exterior, through these grooves by gravity, as will hereinafter be explained in detail. Also, water driven into the joint between the cap and bead will be restrained or baffled" in the restricted groove portions and will not readily pass into the wall eevlty behind the panels.
It In an object ol this invention, therefore, to provide a slmpie and inexpensive casing bead and drainage cap joint construction which is adapted to be disposed horizontally at the base of each course of either stucco-covered wall sections or inlaid panel sections to prevent entrance into the joint of wind-driven water, while also providing drainage of condensation or other accumulated moisture from the wall cavity to the exterior of the building.
It is another object of this invention to provide a novel joint construction comprising a casing bead and drainage cap which functions to provide partial equalization of air pressure between the wall cavity and the exterior atmosphere. Such equalization eliminates one of the major causes of water infiltration into a wall, that is, a pressure differential between the cavity and the exterior.
Another object of this invention is to provide a casing bead member having water draining grooves or flutes fonned in the rear surface thereof and also'incorporates therein a screeding lip flange for the gauging of stucco which may be applied thereto.
It is a further object of this invention to provide a casing bead member having a plurality of grooves or flutes of predetermined height so as to provide for the development of hydrostatic pressure by confined water columns. The columns oppose incoming water driven between the joint components by the wind striking the exterior of the casing wall construction; such grooves provide communication from the cavity of the wall to the exterior of the wall.
Another object of this invention is to provide the combination of an elongate casing bead member and an elongate drainage cap member to be installed in relatively movable engagement whereby adjacent sections of the curtain wall which are subjected to thermal or structural stresses may move relatively to each other in the vertical plane, such permissible movement obviating possible damage to the sections of the curtain wall.
It is another object of this invention to provide for novel joint-forming components in a casing wall construction which is adaptable to be erected in either the vertical plane as is normal, or planes inclined to the vertical if so desired.
The above, and other objects of this invention will become more apparent from the following detailed description when read in the light of the accompanying drawings and the appended claims.
DESCRIPTION OF THE DRAWINGS FIG. 1 is a fragmentary perspective view illustrating a casing bead and drainage cap member illustrated in assembled relationship with a portion of a stucco panel disposed in normal position on the casing bead;
FIG. 2 is a fragmentary exploded view illustrating rear surface portions of a casing bead and drainage cap provided by this invention;
FIG. 3 is a fragmentary perspective view illustrating rear surface portions of a casing bead and drainage cap in assembled relationship with a fragment of a stucco panel formed thereon;
FIG. 4 is a fragmentary sectional view of the joint components provided by this invention shown in normal assem' bled relationship in a multi-storied construction;
FIG. 5 is a fragmentary perspective view of a modified casing beadprovided by this invention;
FIG. 6 is a perspective view of a clip member adapted to join drainage cap members together in horizontal alignment;
FIG. 7 is a fragmentary sectional view illustrating the manner in which a drainage cap and modified casing bead member may be employed in conjunction with a building soffit; and
FIG. 8 is a fragmentary perspective view of a casing head installed in the foundation region of a building.
DESCRIPTION OF THE INVENTION Referring now more particularly to FIG. I, an exterior view is therein depicted of a portion of a curtain wall. A joint is illustrated in the wall which is formed by an upper casing bead disposed in overlying relationship with a lower drainage cap 12. The external curtain wall sections are composed of discrete sections or sheets of stucco 14, each of which rests on a ledge 16 of a casing bead 10. In addition to ledge 16, each casing bead has a back 18 which is affixed by suitable securing members to supporting framing members such as gypsum board sheathing 20 or the like. The latter sheathing is normally secured to spaced vertical supports which may be wood or steel members which are readily erected in place. The joint components 10 and 12 may also be supportably attached directly to such vertical members (not illustrated in FIG. 1).
Inasmuch as a curtain wall by definition comprises a building construction in which exterior panels are non-load bearing but are supported by an inner supporting framework, it will be seen from FIG. 1 that the curtains or stucco sections 14 are disposed as a curtain over the sheathing 20. The specific details of construction of the casing bead 10 and the drainage cap 12 are more apparent from FIG. 2. It will be noted from FIG. 2 that the back 18 of each casing bead may have apertures 22 formed therein to facilitate passage of a securing means such as nails 26 illustrated in FIG. 1. The ledge 16 of each casing bead connects the back portion with a tenninal flange 28 disposed substantially parallel to the back 18 and extending in the same direction therewith from the interposed ledge 16. Grooves or flutes 30, one of which is illustrated in FIG. 2, are arranged at regular intervals such as 3 inch intervals in the back 18 of the casing bead 10.
In the normal course of erection, the first joint element to be erected is the drainage cap 12. As will be seen from FIG. 2, the cap 12 comprises an upper wing member 32 which is connected to a lower wing member 34 by means of an interposed, V-shaped connecting joint 36. The lower wing 34, while in parallel relationship with the upper wing, need only have a height adequate to facilitate mounting, and may be one-half the height of upper wing 32. The V-shaped connecting portion of the drainage cap terminates in a drip flange 38. Flange 38 is of U-shaped cross-sectional configuration and comprises a continuation of an upper slanted web and drainage surface 40 and a lower, substantially horizontally disposed web portion 42. Drainage surface 40 is preferably inclined at an angle of about or to the horizontal. Fastener receiving apertures 44 may be disposed at regular intervals in each of the wing portions 32 and 34 of the drainage cap as is most clearly seen from FIG. 2.
In the course of joint construction, a drainage cap 12 is horizontally aligned and secured in place to supporting frame member such as the sheathing 20 shown in FIG. 1. The casing head 10 is then supported on the upper web 40 of the drainage cap so that the right-angle juncture between the back 18 and the horizontal ledge 16 of the casing bead is nestably received in the juncture between the upper wing 32 and the upper web portion 40 of the drainage cap. The casing bead will now be disposed horizontally and is fixed by suitable fasteners such as nails or the like to the supporting framework. After the two joint components 10 and 12 are fixedly secured in place, a forrnable cementitious material such as stucco will be applied over the sheathing so that a sheet 14 will be formed, resting upon ledge 16 of the casing bead as illustrated in FIG. 1.
In order to secure firm engagement between each stucco panel 14 and the opposed sheathing 20, an expanded metal mesh may be secured in place against the sheathing and over back 18 of the casing head by clip members 48 or large head nails or other equivalent securing means. The expanded metal layer 46 is adapted to function as means for keying the stucco in which the mesh is embedded to the supporting sheathing 20. To further assist in the keying action, the expanded metal sheet 46 may be depressed out of a single plane at regular intervals to further assure desired engagement with the stucco material or other hardenable material. As will be noted from FIG. I, the thickness of the finished stucco panel 14 substantially coincides with the width of the ledge 16 of the casing bead. As is seen from the illustrated joint of FIG. 4, the upper edge portion of each stucco panel may be formed between the rear surface 34 of a drainage cap member and the opposed depending drip flange 38.
The spacing between the supporting ledge 16 of each casing bead and the overlying lower web portion 42 of a drainage cap member determines the height of each stucco panel 14 which is formed in situ and employed in the illustrated type of curtain wall construction. The specific dimensions of the panels employed for forming the curtain wall are discretionary with the builder; a typical stucco panel will have dimensions of 4 to 6 feet in height and of 8, 10 or 12 feet in length. Each ledge 16 of each casing bead may have centrally disposed drainage apertures 50 formed therein at regular spaced intervals to assist in the drainage of any water which may seep between the back 18 of the casing bead, the ledge 16 and the stucco panel 14 which is formed thereover (see FIGS. 1 and 3). The temtinal flange or lip portion 28 of the casing bead may function as a screeding member, as may the depending drip flange 38 of an overlying drainage cap. Accordingly, after the formable stucco or other cementitious composition is applied over the back 18 of the casing bead and the overlying surface of the sheathing, a smoothing or leveling instrument may employ the depending and upstanding flange portions as screeds in forming the appropriate thickness of each panel 14.
FIG. 3 illustrates the intended function of the drainage cap member after the same has been erected in place in a curtain wall construction. The upper drainage web 40 of each drainage cap 12 is inclined to the horizontal at a slight angle. This slight angle also functions to space the adjacent horizontal courses of the stucco panels 14. The spacing between the panels is determined by the magnitude of the divergence between the web portions 40 and 42 of each central V-shaped portion 36 of each drainage cap member. Inasmuch as the web portions 40 and 42 of each V-shaped portion 36 may resiliently move relative to each other, upon the thermal expansion of the cementitious material defining each panel in a curtain wall, the same will be allowed to expand in the vertical direction because of the spring or resiliency in the connecting portion 36. Lateral expansion of panels 14 may be accommodated by vertical framing members well known in the art, such as l" beams engaging panels between opposed flanges. Such structures are not illustrated and comprise no portion of this invention.
The upper web portion 40 of each drainage cap in conjunction with the undersurface of each ledge 16 of each casing bead defines an exit way 37 for the vertical grooves 30 formed in the rear surfaces 18 of the casing beads. Assuming that a high velocity wind carrying entrained water is blowing against the exterior cladding panels 14 of the curtain wall construction illustrated, water will be forced into the V-shaped opening and rise in the grooves 30 formed in the back of the casing bead member. The water columns in the grooves 30 will form hydrostatic heads opposing the force of the wind and water blowing into the openings between adjacent, parallel panel sections. The grooves 30 will serve as a means for equalizing the pressure between the atmosphere on the exterior of the stucco panels 14 and the interior cavity of the wall.
The grooves must have an effective cross-sectional area and geometry to permit water drainage. If the cross-sectional area of the groove is too small, inadequate drainage results. If the cross-sectional area is too large, any water in the groove does not maintain a suflicient continuity to provide a hydrostatic head functioning as a floating damper to the wind blowing into the openings between the panels or stucco sections.
Also, if the cross-sectional geometry of the grooves 30 possesses constricted portions, surface tension of the water, or even entrained dirt particles, is liable to restrict adequate and desirable flow within the groove. Grooves of generally semicircular configuration having a smooth wall trough in the configuration of a V or an easy swept curve, and having a dimension of at least about 3/32 inch at the highest gapping have been found practical and desirable. Maximum gappings of about 56 inch are contemplated by this invention. Spacing between the grooves may vary; a simple pattern of uniform spacing on 3 inch centers has been found to be effective and practical.
By way of a specific example, a casing bead of the type shown in the first four views of the drawing may have a lip flange 28 of 3/16 inch in height, a ledge 16 one inch in width and a back portion of 6 inches in height.
Table 1 below indicates preferred relative dimensions between the height of the back portion of a casing bead and the height of the upper wing portion of an' underlying drainage cap.
TABLE I Casing Drainage Cap Bead Height Upp r Wing Height 4% Inches 2% Inches 5% Inches 3% inches 6% Inches 4% Inches 7 Inches 5 Inches Utilizing certain data taken from Climatological Data, United States Department of Commerce, Weather Bureau 1961 the following Table II indicates the wind velocities effectively resisted by the casing beads and drainage caps of Table I, the beads having flutes of substantially uniform cross section.
A modified drainage cap construction 10a is illustrated in FIG. 5. Cap 100 has a concavity formed in the rear surface 180 thereof, the rear surface being bent slightly along a middle axis 54. The slight concavity enables a spring action to be effected when the casing bead is secured in place against a supporting, planar sheathing surface. Thus the modified casing bead construction 10a is assured of secure, rattle-free engagement with the underlying sheathing surface or surfaces upon being nailed in place.
Modified casing bead 100 also illustrates grooves 300 which are slightly angled to the vertical so as to provide a more tortuous path for any water which is driven between the casing bead and underlying drainage cap. The groove portion 30a formed in the upper portion of casing bead back 18a in FIG. 5 forms angles when joining the lower groove portions 304 formed in the lower half portion of the back 180 of the casing bead 10a. The concavity illustrated in casing bead 10a may obviously be formed" in casing bead 10 without altering the vertical disposition of the grooves 30. Also, the angled grooves 30a may be formed in a casing bead 10 having a planar rear surface portion 18 without a concavity. The depth of the concavity in the modified casing beads is fairly slight, being in the nature of approximately My inch at its deepest point.
The casing bead and drainage cap constructions provided by this invention are adaptable to a variety of uses. Thus, the casing bead 10 may be employed by itself at the floor line in a concrete course or slab construction as illustrated in FIG. 8. The casing bead having the cladding panel 14 provides communication between the exterior atmosphere and the cavity of the wall by means of grooves 30, the casing bead 10 being secured directly to the slab 56 by appropriate securing means.
The casing bead and drainage cap may also be employed for purposes of ventilating a soffit construction as illustrated in FIG. 7. A modified casing bead 13 is therein illustrated supported from a roofing deck 58, and in conjunction with the underlying drainage cap, forms a bame member providing a ventilating opening into the underlying soffit space formed in part by the framing member 60 and soflit board 61.
FIG. 4 is illustrative of the casing bead and drainage cap provided by this invention employed in a multi-storied construction in which spandrel 62, defining the juncture between adjacent floor members, supports a steel shelf angle 66 by means of suitable fasteners, notillustrated. Sheathing 68 is secured to vertical supports 70 which engage runner members 72 at opposed end portions; the runners in turn engage the shelf angle. In addition to the illustrated casing bead 10 and drainage cap 12, FIG. 4 also illustrates the utilization of a flashing strip 74' which may be employed for assisting the drainage of water from the cavity of thewall to the exterior of the building by directing the flow of condensate or other water onto the upper web portion 40 of the illustrated drainage cap 12. The flashing 74 may be a strip of water-resistant tar paper, or even deformable metal which is rust resistant.
FIG. 6 illustrates a splicing clip 76 which may be employed to assure horizontal continuity and closure of drainage caps 12. Clips 76 i have a U-shaped clip portion 78 adapted to nestably receive adjacent portions of drip flanges 38 arranged in a horizontal course. In normal use clips 76 are interposed between the casing beads and drainage caps.
It is seen, therefore, that a novel joint construction has been provided which is particularly adapted for use in curtain wall constructions. The novel casing bead and drainage cap effect a number of useful functions and may be employed in a number of useful applications, as is obvious from the above description of the constructions illustrated in the drawings.
The novel curtain wall joints enable water which is forced into the cavity of the wall behind the exterior facing to readily drain therefrom by gravity, and also enables any condensate formed in the wall cavity to drain to the exterior of the wall without causing any damage. The novel venting grooves formed in the rear surface of the casing bead also function as a communicating path enabling pressure to equalize between the exterior end interior cavity of the curtain wall. I
vAlthough the foregoing description has been specific with respect to stucco or other cementitious composition which is fonned into panels in situ and placed on the described casing bead members, it should be appreciated that the above described joint components may also be employed in conjunction with preformed panel members such as cast cement slabs which may be fitted into place on the ledge of the casing bead and fixed in place by means of grouting which assures the establishment of a continuous seal between the supporting casing bead and the inlaid members forming the panel supported by the casing bead. The provided joint components may, of course, be employed in a variety of structures not defining what is technically a curtain wall" construction. The materials of composition for the components should be of adequate strength and water resistant to serve the described P p It is apparent from the foregoing description that a number of modifications may be made in the construction above described. This invention is tobe limited only by the scope of the appended claims.
1. A wall joint construction comprising a casing bead having a grooved, substantially planar back integrally formed with a ledge portion joined thereto at substantially right angles and adapted to engage lower portions of a first mass of surfacing material; an elongated drainage cap having upper and lower coplanar wings joined by a flexible web connection of substantially V-shaped cross section, the upper wing portion being disposed in surface contact with a lower grooved portion of the casing bead back; the drainage cap lower wing and a lower portion of the flexible web engaging the rear surface and top edge portions respectively of a second mass of surfacing material disposed beneath said first mass in substantially coplanar relationship, the casing bead ledge portion being movable with the first mass of of surfacing material and the drainage cap lower web portion being movable with the second mass of surfacing material whereby relative movement between the surfacing masses in the vertical plane results in flexing of the cap web.
2. The joint construction of claim 1 in which said casing bead ledge portion has an upstanding flange and said drainage cap flexible web has a depending lip; said flange and lip being in substantially the same plane.
3. A wall joint construction comprising a casing bead having a back integrally formed with ledge means along a line of juncture', said ledge being adapted to engage a first section of wall surfacing, drainage cap means having a back portion adapted to be supported by a supporting surface, a downwardly disposed drainage means directly connected to said back portion along a line of juncture and cap means for engaging the upper edge portion of a second section of wall surfacing, integrally formed with said drainage means and resiliently movable relative thereto; said casing bead back having a plurality of grooves formed in the rear surface thereof defining open end, water-retaining passageways when said casing bead support means-back juncture is nestably received in the juncture between said drainage means and back portion of said drainage cap means.
4. The wall joint construction of claim 3 in which said drainage cap drainage means has a depending lip and said casing bead ledge means has an upstanding flange; said lip and flange lying in substantially the same plane.
5. The wall joint construction of claim 3 in which said passageways are substantially uniform in crox section and have lengths between about 2 and 6 inches.
6. The wall joint construction of claim 5 in which said grooves have a cross-sectional width of the order of between 3/32 inch and A inch.
7. The wall joint construction of claim 3 in which a wall surfacing material is supported as said ledge means, and means for keying said surfacing material to said supporting surface is secured to said supporting surface and embedded in said wall surfacing.
l i t I i
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|U.S. Classification||52/367, 52/396.7|
|International Classification||E04F13/08, E04B2/94, E04F19/02, E04F19/06, E04B2/90, E04B1/70|
|Cooperative Classification||E04F19/06, E04B2/94, E04F13/0801, E04B1/7023, E04F19/061|
|European Classification||E04F13/08B, E04F19/06, E04B1/70D, E04F19/06B, E04B2/94|