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US3670470A - Roof joint cover assembly - Google Patents

️Tue Jun 20 1972

United States Patent Thom [451 June 20, 1972 [541 ROOF JOINT COVER ASSEMBLY 3,447,273 6/1969 Thom ..52/39s x [72] Inventor: Wenzel W. Thom, Wichita, Kans.

Primary Examiner-Price C. Faw, Jr. Asslgneel architectural 8" Wichita, Attomey-Schmidt, Johnson, Hovey & Williams ans. 7

22 Filed: Dec. 18, 1970 [571 ABSTRACT [211 App) No; 99,363 An expansion joint cover for effectively sealing the joint between two shiftable roof sections while permitting the natural expansion and contraction of the latter which employs a [52] U.S. Cl ..52/395, 52/58, 52/467, cover plate resiliently mounted on one of a pair of

support

2/573 members on opposite sides of the joint with a bolt and coil [51] I13. Cl. E0411 3/38, E04f 15/14 spring [herearound so as to bias the cover into a sealing posi- [58] FlEld of Search ..52/573, 467, 395, 393, 396, {ion on both supports, the bolt and spring being positioned 52/53, 463 proximal to the joint between the two sections and providing a balanced sealing action on the respective supports. [56] References Cited 15 Claims, 3 Drawing Figures UNITED STATES PATENTS 3,372,521 3/1968 Thom ..52/395 l '5'\'\''\' iifiij w ill" a? /.54

ROOF JOINT COVER ASSEIVIBLY This invention relates to the field of expansion joint covers and, more particularly, to animproved expansion joint cover for sealing the joint between two shiftable roof sections which provides increased sealing efficiency without interfering with the natural expansion and contraction of the roof sections.

The joints between a pair of horizontal roof sections and between a horizontal section and a vertical section such as a parapet wall, have conventionally been scaled against the elements by a variety of cover devices. These devices allow the various roof sections to shift back and forth and up and down relatively to each other during the expansion and contraction of the roof sections during varying temperature conditions with real success being obtained only at high cost.

For years, flexible flashing material has been bent to provide overlapping, interleaved units adapted to be nailed to respective roof sections and the roofing material laid over the nailed edges of the flashing units. During expansion and contraction of the roof sections, the interleaved portions of the units move relatively to retain the seal therebetween. Although this type of assembly enjoyed some commercial success, primarily because it was the only structure available for general use, fabrication and installation of the units was expensive and time consuming, and the structure was susceptible to damage by loads thereon, particularly if walked upon by workmen on the roof.

Other devices which allow for the expansion and contraction of the roof sections use an extruded cover plate assembly to span the distance between the roof sections and to seal the joint. One side of the plate is securely attached to one of the roof sections or to one of the supports for the cover while the opposite side engages a support on the other roof section in an overlapping relationship therewith. The cover plate, which has a limited degree of flexibility is mounted in covering position over the joint in a slightly flexed condition in such amanner that the natural flection of the cover provides the necessary clamping force and sealing on each of the supports for the respective roof sections. This arrangement, however, is not a satisfactory solution in all applications due to the limited range through which the cover may be flexed. if the cover is flexed too far in one direction it will lack the necessary clamping force to provide an efficient seal, or if the cover is flexed too far in the opposite direction, the cover may become permanently bent or even break. I

Other prior devices which allow for the contraction and expansion of the various roof sections have used leaf springs spanning the joint and joined to an overlying cover plate in an attempt to provide the necessary clamping force to efiect a seal between the cover and the respective supports for the cover assembly. The leaf springs have leg portions which engage opposite support members on respective roof sections defining the joint therebetween. Fastening means is used to connect the leaf springs to the cover member. This arrangement suffers from many practical fabrication, installation, operation and excessive cost problems with the most serious involving inability of the leaf spring construction to force the cover plate into positive sealing engagement with cover sup ports, particularly when the joint is of considerable width, under pressure sufiicient to assure a seal along the entire length of the joint under all conditions of movement of the roof sections. While this arrangement offers a greater degree of movement than does the other arrangement mentioned above, it still does not provide a satisfactory and balanced sealing action during the expansion and contraction movement of the various sections.

Accordingly, it is the primary object of this invention to provide an expansion joint cover assembly for sealing the joint between a pair of roof sections which provides greater sealing efficiency at a practical cost than that obtainable from prior devices during the natural contraction and expansion of the roof sections.

Another important object of this invention is to provide such a cover assembly which utilizes means other than the natural flection of a cover plate to yieldably bias the cover into its sealing position.

Another important object of this invention is to provide such a cover assembly which utilizes spring means for biasing the cover plate into sealing engagement with opposed support members comprising a series of bolts projecting downwardly from the cover plate and extending through a support bracket on one of the support members and a coil spring surrounding each bolt and trapped between the bracket and retainer on a corresponding bolt to firmly force the cover plate down against the support members and assure a uniform clamping force and a balanced sealing action on both roof section support members of the cover assembly.

4 Still another important object of this invention is to provide a cover assembly as described above having a separate cover element for spanning the distance between a pair of upright support units on opposite sides of the joint wherein the element is yieldably biased into engagement with the supports by coil spring operated attaching means mounted on the element in a position proximal to the joint.

A further important object of the invention is to provide such a cover assembly which may be economically extruded by conventional procedures and which provides a maximum degree of strength, weather-sealing characteristics, and installation efficiency.

In the drawing:

FIG. 1 is a fragmentary, perspective view of two embodiments of a roof joint cover embodying the principles of my invention, shown in their normal operative relationship in sea]- ing relationship to a joint defined by two roof sections and overlying a joint between the roof sections and a parapet;

FIG. 2 is an enlarged cross-sectional view of the embodiment of the roof joint cover adapted for covering the joint defined by two spaced, proximal roof sections, and taken along line 22 of FIG. 1; and

FIG. 3 is an enlarged cross-sectional view of a second embodiment of the roof joint cover designed for closing the joint between a parapet and adjacent roof sections, and taken along line 33 of FIG. 1.

One embodiment of the roof joint cover assembly which utilizes the principles of my invention is designated in FIGS. 1 and 3 by the

numeral

10 and is used to cover a

joint

12 defined between a

horizontal roof section

14 and a

vertical section

16 such as a parapet wall.

The

roof section

14 is conventionally provided with a

wooden stringer

18 having an outwardly and downwardly sloping outboard surface 20, and the upper, horizontal surface 22extending from

joint

12 toward the corresponding surface 20. A layer of roofing material 24 is normally provided on

roof section

14 and is laid down on the roof so that one margin thereof extends upwardly along surface 20 in contact therewith, presenting an

edge

26 adjacent the horizontal surface 22.

Assembly

10 includes an elongated and generally inverted T-shaped support member or

component

28 having a

base portion

30 mounted atop the horizontal surface 22 of

stringer

18 along the length of

joint

12 and secured to the stringer by a plurality of screws 32 spaced along the length of

base portion

30.

Component

28 also includes an upwardly extending

segment

34 having a channel-shaped terminal end 36 which removably receives an elongated,

deformable sealing strip

38 therein.

An elongated

flexible sealing element

40, disposed along the length of

joint

12, is sandwiched between

base portion

30 of

support

28 and the horizontal surface 22 of

stringer

18 with a portion 42 thereof extending across joint 12 and

engaging surface

44 of

parapet wall

16 to effect a secondary weatherproof seal therewith.

A flashing

section

46 is provided on the outermost extremity of

base portion

30 of

component

28 remote from

joint

12 and adapted to be bent down into sealing engagement with the roofing material and firmly held thereagainst by a plurality of spaced screws 32 driven into

stringer

18. As is most apparent from FIG. 3 upon installation of the

cover assembly

10, flashing

section

46 extends generally downwardly toward

roof section

14 and away from

joint

12 over the

edge

26 of roofing material 24 and along the latter in spaced, overlying relationship therewith, and terminates in a sealing

rib

48.

Rib

48 assures that an effective weatherproof seal is provided between roofing material 24 and flashing

member

46 when

rib

48 is positioned in tight engagement with roofing material 24.

Assembly also includes a second elongated support member or

component

50 of generally L-shaped configuration mounted on the

inner surface

44 of

parapet wall

16 facing toward

joint

12 and secured to

wall

16 along the length thereof by a plurality of screws 56. A pair of elongated sealing strips 58, similar to the

sealing strips

38, are sandwiched between

component

50 and

parapet wall

16 on both sides of screws 56 with strips 58 providing an effective weatherproof seal between

parapet wall

16 and

component

50.

Component

50 is mounted on parapet wall 16in a position generally above the plane of the surface 22 with the foot portion or bracket 60 of

component

50 being adjacent the plane of the surface 22 and extending outwardly from

component

50 toward

joint

12 in substantial alignment with terminal end 36 of

segment

34 of

component

28.

Component

50 is provided with a generally inverted L-

shaped projection

62 having a

horizontal portion

64 extending generally outwardly from

component

50 toward

joint

12 and a

vertical portion

66 extending downwardly from the .extremity of

portion

64 remote from

joint

12 toward bracket 60, thereby defining a channel 68 between

projection

62 and

support component

50.

A generally Z-

shaped cover

70 having a

central portion

72 and a pair of

skirts

74 and 76 on opposite extremities of

central portion

72 thereof

spans joint

12 and is disposed in overlying relationship to

component

28 with the lower surface 78 of a part of the

central portion

adjacent skirt

74 engaging

sealing strip

38 atop terminal end 36 and supported thereby.

Skirt

74 of the

cover

70 remote from joint '12 extends generally downwardly toward

roof section

14 into overlying relationship with a portion of the

segment

34 of

support component

28. The other skirt 76

adjacent joint

12 extends generally upwardly into the channel 68 between

projection

62 and

component

50 with a cross-sectional bead-shaped terminal end 80 of skirt 76 being complementally received within an elongated, transversely circular slot 82 in the

horizontal portion

64 of

projection

62. Skirt 76 is secured to

projection

62 and the other portion of the

cover

70 adjacent skirt 76 is supported by virtue of the fact that the distance across the opening of slot 82 is smaller than the cross-sectional diameter of the bead-shaped terminal end 80. As may be appreciated from HO. 3, the configuration of slot 82 and terminal end 80 of skirt 76 allows the latter to swing relative to

projection

62 and support 50 while securely holding skirt 76 in its upwardly extending position within channel 68.

A series of connectors 84 are provided for securely attaching

cover

70 to the foot portion or bracket 60 of

component

50 and to yieldably bias cover 70 downwardly toward bracket 60. Each connector 84 comprises a

bolt

86 having a

head

88 on one extremity thereof and a T-nut 90 having a flange 92 on one extremity thereof. The

bolts

86 project downwardly through respective openings therefor in

cover plate

70 with the

heads

88 thereof engaging the top surface of

plate

70 and the terminal ends of the same located above joint 12-but in proximal relationship thereto. Each

bolt

86 extends through an opening 94 therefor in bracket 60 of

component

50 with a respective T-nut 90 being threaded or otherwise affixed to the lower end of the bolt. A portion of each nut 90 extends through opening 94 with flange 92 thereof positioned beneath the bracket 60. The diameter of opening 94 is greater than the diameter of the nut 90 thereby allowing the latter to rock back-and-forth and from side-to-side within opening 94 and connector assembly 84 to swing relative to bracket 60. An E-retainer on the upper end of each T-nut 90 and of greater efl'ective diameter than the opening 94 therebelow maintains the nut in position on bracket 60 during installation so that each

bolt

86 may readily be threaded into a corresponding nut notwithstanding the fact that the latter is hidden from view after the cover plate is positioned over the joint.

Biasing of the

cover

70 downwardly toward bracket 60 is achieved by the provision of a coil spring 96 mounted over each nut 90 with one end of spring 96 engaging a corresponding flange 92 and the opposite end thereof contacting the

bottom surface

98 of bracket 60, thereby causing nut 90 as well as

cover

70 to be biased downwardly toward

joint

12. The biasing force of springs 96 serves to force

cover

70 into a tight sealing engagement with the

sealing strip

38 of

component

28 and to force the outer surface of the bead-shaped terminal end into a tight sealing engagement with the surfaces of the bead-shaped slot 82 adjacent the outer opening of slot 82.

Upon shifting of the

roof section

14 upwardly relative to

parapet wall

16, the bead-shaped configuration of terminal end 80 and slot 82, as well as the space between nut and the edges of opening 94, allow

cover

70 to swing and slightly rotate clockwise about the pivot point corresponding to the bead-shaped terminal end 80 with connector assembly 84 rocking generally in a clockwise manner within opening 94. As may be appreciated, the upward shifting of

roof section

14 as well as any other relative shifting of the roof sections does not prevent spring 96 from forcing

cover

70 into a tight sealing engagement with the

sealing strip

38 and the bead-shaped portion of terminal end 80 of

cover

70 into tight sealing engagement with the surfaces of slot 82. It may also be appreciated that

cover assembly

10 provides a more efficient clamping force and sealing action on

support

28 as well as allowing a greater degree of relative upward and downward shifting of the two

roof sections

14 and 16 than that which is obtainable from using a flexible cover which depends upon the natural flection of the cover to provide the necessary clamping force.

In use,

components

28 and 50 and

cover

70, due to their uniform cross-sectional configuration, may be extruded from aluminum or any other material which offers the desired degree of strength and production economy and cut to a variety of different standard lengths.

Components

28 and 50 are mounted along the length of joint 12 on their respective roof sections with

component

28 being mounted over the sealing

material

40.

Sealing

rib

48 of flashing

member

46 is shifted into tight engagement with the roofing material 24 by hammering or the like, and a

splice cover

100 is positioned over abutting ends of

adjacent components

28 and 50, secured thereto by a plurality of screws (not shown), at each point of juncture between one component and the next succeeding component along the length of joint 12 in order to cover the breaks between the succeeding

components

28 and 50 and to properly seal joint 12 along its entire length. A plurality of

covers

70 are inserted into channel 68 of their

respective components

50 with skirts 76 being inserted into slots 82 and the

central portion

72 being positioned over and engaging

support

28. A

splice cover

102 is also positioned over each point of juncture between abutting ends of and is secured to the

covers

70 by a plurality of connectors 78 provided at spaced intervals along the length of the

covers

70.

The second embodiment of the roof joint cover assembly illustrated in FIGS. 1 and 2 of the drawing is generally designated by the numeral and specifically adapted for use in covering a joint 112 defined between two horizontally spaced

roof sections

114 and 116.

Roof section

114 and 116 are provided with

wooden stringers

118 and 119 respectively each having an outwardly and downwardly sloping

outboard surface

120, and an upper, horizontal surface 122 extending from joint 112 toward the

corresponding surface

120. A layer of roofing material 124 lies on each

roofing section

114 and 116 and extends upwardly along surface. in contact therewith, presenting an

edge

126 adjacent the horizontal surfaces 122.

Assembly

110 includes elongated and generally inverted T-shaped support members or

components

128 and 150 with each

component

128 being mounted on

stringer l

18 along

joint

112 and

component

150 being mounted on

stringer

119 along joint 112.

Components

128 and 150 are both provided with

base portions

130 and flashing

members

146 which are similar in every major respect to those for the

support component

28 of the first embodiment of the invention described above and thus need not be further described here. In the same manner, screws 132 are employed to secure

components

128 and 150 to respective stringers.

A flexible, elongated sealing

element

140 spans the distance across joint 112 and is sandwiched at opposite sides thereof between the

base portions

130 and their

respective stringers

118 and 119. The sealing

element

140 preferably formed of extruded vinyl material similar to

elements

40, also provides a secondary weatherproof seal for joint 1 12.

Components

128 and 150 are each provided with an upstanding segment 134 having a channel-shaped terminal end 136 and a

sealing strip

138 therein similar to that of the

support component

28 previously described in detail.

Component

150, however, is provided with a

bracket

160 extending outwardly therefrom at a position adjacent the terminal end 136 of the latter toward

support component

128 and in substantial alignment with the terminal end 136 of segment 134 of

component

128.

A generally channel-shaped

cover

170 having a

central portion

172 and a pair of

skirts

174 and 176 spans the distance across joint 112 and is disposed in overlying relationship to

components

128 and 150 with the lower surface 178 of

cover

170 engaging respective sealing strips 138. Skirt 174 of

cover

170

adjacent stringer

118 extends generally downwardly toward roof section 114 in overlying relationship with a portion of segment 134 of

component

128 while the opposite skirt 176 extends generally downwardly toward

roof section

116 in overlying relationship with a portion of segment 134 of

component

150. A rib 171 extends longitudinally of

cover

70 and projects downwardly therefrom adjacent the free extremity of

bracket

160 for strengthening

cover

70.

A series of

connector assemblies

184 similar to assemblies 84 of the first described embodiment also each include a

bolt

186 having a

head

188, a

nut

190 having a flange 192, and a

coil spring

196 surrounding a respective nut between flange 192 and

bracket

160 to securely attach

cover

170 to

bracket

160 of

component

150 and thereby firmly bias

cover

70 downwardly against respective sealing

members

138 of

components

128 and 150 in such a manner as to compress the latter and effect a weatherproof seal therebetween. Each

bolt

186 extends downwardly toward joint 112 from a position on

cover

170 disposed generally centrally of the latter, over joint 112, and within the vertical extensions of the boundaries of joint 112. The

bolts

186 extend downwardly through

cover

170 and a respective opening 194 within

bracket

160 of

component

150. Each

nut

190 is threaded onto the lower end of a

corresponding bolt

186 with a portion of each nut extending through opening 194 while the remainder thereof projects downwardly toward joint 112 in disposition such that flange 192 thereon is positioned beneath

bracket

160. The diameter of each opening 194 is greater than the diameter of a

respective nut

190, thereby allowing each of the same to rock backand-forth and from side-to-side within a respective opening 194 and the

connector assembly

184 to swing relative to

bracket

160.

As may be appreciated, the provision of a

connector assembly

184 mounted centrally on

cover

170 enablesthe latter to provide an effective seal between

cover

170 and supports 128 and 150 by allowing a balanced pivotal action about the point where each

bolt

186 is circumscribed by an opening 194 within

bracket

160. In this regard, it may be seen that if

roof section

116 shifts upwardly with respect to roof section 114, the

extremity

195 of

cover

170

overlying roof section

116 shifts upwardly with respect to connector assembly 184 a distance equal to that which

connector assembly

184 is shifted upwardly with respect to the

extremity

197 of

cover

170 overlying roof section 1 14. This pivotal action provides a balanced clamping force and sealing action on the

respective supports

128 and 150 as well as allowing a greater degree of relative upward and downward shifting of the two

roof sections

114 and 116 than that which would be obtained by using a flexible cover which depends upon the natural flection of the cover to provide the necessary clamping force.

Components

128 and and cover are similar to that of

components

28, 50 and cover 70 previously described and may be constructed by the same material and by the same procedures.

Components

128 and 150 and cover 170 are provided with splice covers 200 and 204 respectively, similar to

covers

100 and 102 of the first described embodiment and are mounted on their

respective stringers

118 and 119 by the same procedure as used to mount their respective counterparts with the exception that the

central portion

172 of

cover

170 is mounted over and engages both

supports

128 and 150.

A particularly important feature of both embodiments of the invention is the use of coil springs for biasing the cover plates toward respective support members and disposed in essentially central locations transversely of respective cover plates to assure firm sealing engagement thereof with the sealing elements on the cover plate supports regardless of the degree or direction of movement of the roof sections. After the coil springs are placed in compression by tightening of

bolts

86 and 186, firm, uniform pressure is exerted on the respective cover plates throughout their lengths. In addition, although the normal spacing between

connectors

84 or 184 is about 18 inches, it can be appreciated that such space can readily be varied at will to accommodate a particular structural condition.

Having thus described the invention, what is claimed as new and desired to be secured by Letters Patent is:

1. A roof joint cover assembly for structural sections cooperable to present a roof for a building and including a pair of spaced sections defining a joint therebetween, said assembly comprising:

a first component adapted to be secured to one of the structural sections adjacent the joint defined thereby and including a first part configured to generally complementally engage a surface portion of said one structural section, and

a second part joined to said first part and extending away from the latter in a direction toward the joint;

a second component adapted to be secured to the other structural section of the pair thereof and having a segment extending away therefrom, said segment being provided with a terminal edge remote from the other structural section terminating in substantial alignment with said second part of the first component;

a cover plate overlying said parts of the first component in spaced relationship therefrom and engaging the terminal edge of said segment of the second component and the first part of said first component;

connector means on the cover plate and extending through the second part of said first component for pivoting movement relative thereto; and

resilient means on the connector and engaging said second part of the first components for biasing the cover plate into tight engagement with said first part of the first, component and the segment of said second component.

2. The invention of claim 1, wherein said cover plate is channel-like in configuration with the skirts on opposite sides thereof extending generally downwardly toward said roof in overlying relationship with corresponding portions of the segment of said second component and the first part of said first component.

3. The invention of claim 1, wherein said first and second components are of generally inverted T-shape configuration and are each provided with an integral flashing member on their respective extremities remote from said joint, said flashing members extending generally downwardly toward said roof and outwardly from said joint along corresponding structural sections in spaced overlying relationship therewith.

4. The invention of claim 1, wherein said second part of the first component is provided with a surface remote from said one structural section in substantial parallelism with the latter and with said outer edge of the segment of said second component, said surface being adapted to engage said cover plate.

5. The invention of claim 4, wherein said surface of the second part of the first component and said terminal edge of the segment of said second component are each provided with a compressible sealing member extending along their respective lengths and disposed to engage said cover plate and effect a seal therebetween.

6. The invention of claim 1, wherein said connector means includes a bolt having a head thereon and a nut threaded on said bolt below said second part of said first component, said resilient means on the connector means including a coil spring surrounding said bolt and engaging said nut and said second part of the first component.

7. The invention of claim 1, wherein both of said components and said cover plate are elongated and extend along the length of the joint, said connector means being provided at spaced intervals along the length of the cover plate.

8. The invention of claim 1, wherein said first component is generally L-shaped and is provided with a finger unit extending generally outwardly from said first part of said first component toward said joint and downwardly toward said second part of said first component, said finger unit and said first part defining a channel within said first component.

9. The invention of claim 8, wherein said second component is generally of inverted T-shaped configuration and provided with an integral flashing member on an extremity remote from said joint, said flashing member extending generally downwardly toward said roof and outwardly from said joint along its corresponding structural section in spaced overlying relationship therewith.

10. The invention of claim 9, wherein said cover plate is generally of Z-shape configuration with a first skirt on one of the extremities of said plate extending generally downwardly toward said roof in overlying relationship with a portion of the segment of said second component and with a second skirt on another extremity of said plate extending generally upwardly into said channel between said finger unit and the first part of said first component with the terminal end of said second skirt engaging the inner surface of said first component at the point of juncture of said finger unit with the first part of said first component.

11. The invention of

claim

10, wherein said second skirt is provided with a bead on the terminal end thereof adapted to be complementally received within a corresponding beadshaped slot provided within the inner surface of said first component at the point of juncture of said finger unit with the first part of said first component, the distance across the opening of said slot being smaller than the cross-sectional diameter of said bead in order to secure the terminal end of said second skirt to said first component while permitting pivotal movement relative thereto.

12. The invention of

claim

10, wherein said first part of said first component is provided with compressible sealing means extending along the length thereof and adapted to engage said one structural section and effect a seal between the latter and said first component 13. The invention of

claim

12, wherein said terminal edge of the segment of said second component is provided with compressible sealing means extending along the length thereof and disposed to engage said cover plate and effect a seal therebetween.

14. The invention of

claim

10, wherein said connector means includes a bolt having a head thereon and a nut threaded on said bolt below said second part of said first component, said resilient means on the connector means includes a coil spring surrounding said bolt and engaging said nut and said second part of the first component.

15. The invention of

claim

10, wherein both of said components and said cover plate are elongated and extend along the length of the joint, said connector means being provided at spaced intervals along the length of the cover plate.