US2307293A - Wall joint - Google Patents

Wall joint Download PDF

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Publication number
US2307293A
US2307293A US331428A US33142840A US2307293A US 2307293 A US2307293 A US 2307293A US 331428 A US331428 A US 331428A US 33142840 A US33142840 A US 33142840A US 2307293 A US2307293 A US 2307293A
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United States
Prior art keywords
strip
bearing portions
base portion
unit
channel unit
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Expired - Lifetime
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US331428A
Inventor
Hugh W Paul
William J Bates
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OI Glass Inc
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Owens Illinois Glass Co
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Publication date
Application filed by Owens Illinois Glass Co filed Critical Owens Illinois Glass Co
Priority to US331428A priority Critical patent/US2307293A/en
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Publication of US2307293A publication Critical patent/US2307293A/en
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B1/00Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
    • E04B1/62Insulation or other protection; Elements or use of specified material therefor
    • E04B1/66Sealings
    • E04B1/68Sealings of joints, e.g. expansion joints

Definitions

  • a further object of our invention is the pro-- vision of a novel all-metal structure of the above character in which a portion thereof is permanently anchored to the structural framework and the other portion is bonded securely to the structural blocks which constitute the panels.
  • Fig. 1 is a fragmentary sectional perspective view oftheyielding wall joint.
  • Fig.2. is. a frontelevational view with parts broken away to disclose the construction thereof.
  • Fig. 3 is an end elevational view of the channel unit.
  • Fig. 4 is a fragmentary perspective view partly in section of the channel iron section.
  • the structure consists of a resilient channel unit In which is attached to the structural framework
  • This channel unit includes an elongated medial base portion l2, opposed bearing portions 13 which are disposed parallel to the base portion, and a pair of longitudinal flanges M which define the sides of the channel unit.
  • the channel unit is adapted to be anchored to the structural framework by means of screws l5 or other fastening devices.
  • the aforementioned bearing portions 13 which are formed integral with the base portion are spaced outwardly from the latter and therefore disposed in spaced relationship to the structural framework ll so that they are free to move relative to the base and framework during expansion and contraction of the corresponding panel of structural blocks B.
  • Tongues I6 or fingers are struck forwardly from the bearing portions l3 at points spaced longitudinally along the channel for the purpose of effecting separable connection between the channel unit and a composite strip I! which is anchored to the blocks B by a mortar joint 18.
  • This composite strip l'l includes a base strip H! which spans the open side of the channel unit and has its marginal portions folded inwardly upon themselves in spaced relation to the strip proper to produce longitudinal flanges 20. These flanges engage the. bearing portions I3 of the channel-unitand are held against lateral movement :by the fingers 16.
  • . orstrip ofnexpanded metal is Welded or otherwise secured to the outer face of thebase strip #9, for-the purpose of insuring satisfactorybonding of the mortar l8 andsaidcomposite strip l1.
  • a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, and means for securing said unit and strip together.
  • a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, and means for securing said unit and strip together, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions.
  • a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, means for securing said unit and strip together, and a foraminous sheet attached to the outer surface of said strip.
  • a resilient metal channel including a base portion for attachment to a. support, resilient bearing portions along the opposed longitudinal margins of .and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, means for securing said unit and strip together, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, and a for-aminous sheet attached to the exterior face of said strip.
  • a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, and a plurality of tongues struck outwardly from the bearing portions and overlapping the inwardly turned marginal portions of said strip.
  • a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, a plurality of tongues struck outwardly from the bearing portions and overlapping the inwardly turned marginal portions of said strip, and a foraminous sheet attached to the exterior surface of said strip.
  • a resilient metal channel unit including a base portion for attachment to the support, bearing portions at the opposed longitudinal edges of the base portion, said bearing portions being positioned in a vertical plane outwardly from the base portion, outwardly directed parallel flanges on said bearing portions defining th longitudinal margins of the channel unit, a strip spanning the channel unit and having its longitudial marginal portions in engagement with said bearing portions, and means for separately connecting the channel unit and strip and holding the strip and bearing portions interengaged.
  • a resilient metal channel unit including a base portion for attachment to the support, bearing portions at the 0pposed longitudinal edges of the base portion, said bearing portions being positioned in a vertical plane outwardly from the base portion, outwardly directed parallel flanges on said bearing portions defining the longitudinal margins of the channel unit, a strip spanning the channel unit and having its longitudinal marginal portions in engagement with said bearing portions, means for separably connecting the channel unit and strip and holding the strip and bearing portions interengaged, and a foraminous sheet attached to the outer face of said strip.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Joining Of Building Structures In Genera (AREA)

Description

Jan. 5, 1943. H, w, PAUL AL 2,307,293
WALL JOINT File i April 24, 1940 wNvENfORs Patented Jan. 5, 1943 r m]- arms I WALL JOINT Hugh W. Paul and Willianif, J. Bates, Toledo, Ohio, assignors to. Owens-Illinois Glass Company, a corporation of Ohio I Application April 24, 1940, serial No. 331,428
s Claims. (01; 72-106) The.=present invention relates to improvements in means for securing structural blocks in frames and has for its main object the provision of a novelform of yielding walljoint which, in addition to securely retaining the blocks in position,
will provide for expansion and contraction of a panel "of such blocks and permit independent movement of adjacent panels.
" A further object of our invention is the pro-- vision of a novel all-metal structure of the above character in which a portion thereof is permanently anchored to the structural framework and the other portion is bonded securely to the structural blocks which constitute the panels.
.Other objects will be in part apparentand in part pointed out hereinafter. i
'In the drawing:
Fig. 1 is a fragmentary sectional perspective view oftheyielding wall joint.
Fig."2. is. a frontelevational view with parts broken away to disclose the construction thereof.
Fig. 3 is an end elevational view of the channel unit.
Fig. 4 is a fragmentary perspective view partly in section of the channel iron section.
In the illustrated embodiment of our invention, the structure consists of a resilient channel unit In which is attached to the structural framework This channel unit includes an elongated medial base portion l2, opposed bearing portions 13 which are disposed parallel to the base portion, and a pair of longitudinal flanges M which define the sides of the channel unit. The channel unit is adapted to be anchored to the structural framework by means of screws l5 or other fastening devices. The aforementioned bearing portions 13 which are formed integral with the base portion are spaced outwardly from the latter and therefore disposed in spaced relationship to the structural framework ll so that they are free to move relative to the base and framework during expansion and contraction of the corresponding panel of structural blocks B. Tongues I6 or fingers are struck forwardly from the bearing portions l3 at points spaced longitudinally along the channel for the purpose of effecting separable connection between the channel unit and a composite strip I! which is anchored to the blocks B by a mortar joint 18.
This composite strip l'l includes a base strip H! which spans the open side of the channel unit and has its marginal portions folded inwardly upon themselves in spaced relation to the strip proper to produce longitudinal flanges 20. These flanges engage the. bearing portions I3 of the channel-unitand are held against lateral movement :by the fingers 16. A foraminous sheet 2|. orstrip ofnexpanded metal, is Welded or otherwise secured to the outer face of thebase strip #9, for-the purpose of insuring satisfactorybonding of the mortar l8 andsaidcomposite strip l1.
vWith a construction such as has been described above, it is apparent that the yielding bearing portions .13 together With the inherent resiliency of the marginal inwardly turned portions of the composite, strip 11, will permit the necessary. expansion and contraction of the structure Without any danger of cracking or otherwise distortingthe block panels. In assembling one. of these expansion joints, it is only necessary to anchor the channel unit to the structural framework and then slide the composite strips into positionbeneath the fingers or tongues 16, as illustrated in Fig. 3. The adjacent blocks vof the panel may project a shortdistanceinto the channel so as to completely obscure the mortar from view and the metal unit itself may be obscured from view by a molding strip S.
Modifications may be resorted to within the spirit and scope of the appended claims.
We claim:
1. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, and means for securing said unit and strip together. v
2. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, and means for securing said unit and strip together, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions.
3. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, means for securing said unit and strip together, and a foraminous sheet attached to the outer surface of said strip.
4. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a. support, resilient bearing portions along the opposed longitudinal margins of .and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, means for securing said unit and strip together, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, and a for-aminous sheet attached to the exterior face of said strip.
5. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, and a plurality of tongues struck outwardly from the bearing portions and overlapping the inwardly turned marginal portions of said strip.
6. In a yielding wall joint, a resilient metal channel including a base portion for attachment to a support, resilient bearing portions along the opposed longitudinal margins of and integral with said base portion, longitudinal flanges at the outer margin of the bearing portions defining the sides of said channel unit, a strip lying within the unit and contacting only said flanges and bearing portions, said strip having inwardly turned marginal portions yieldingly spacing the strip from said bearing portions, a plurality of tongues struck outwardly from the bearing portions and overlapping the inwardly turned marginal portions of said strip, and a foraminous sheet attached to the exterior surface of said strip.
7. In a yielding wall joint, a resilient metal channel unit including a base portion for attachment to the support, bearing portions at the opposed longitudinal edges of the base portion, said bearing portions being positioned in a vertical plane outwardly from the base portion, outwardly directed parallel flanges on said bearing portions defining th longitudinal margins of the channel unit, a strip spanning the channel unit and having its longitudial marginal portions in engagement with said bearing portions, and means for separately connecting the channel unit and strip and holding the strip and bearing portions interengaged.
8. In a yielding wall joint, a resilient metal channel unit including a base portion for attachment to the support, bearing portions at the 0pposed longitudinal edges of the base portion, said bearing portions being positioned in a vertical plane outwardly from the base portion, outwardly directed parallel flanges on said bearing portions defining the longitudinal margins of the channel unit, a strip spanning the channel unit and having its longitudinal marginal portions in engagement with said bearing portions, means for separably connecting the channel unit and strip and holding the strip and bearing portions interengaged, and a foraminous sheet attached to the outer face of said strip.
- HUGH W. PAUL.
WILLIAM J. BATES.
US331428A 1940-04-24 1940-04-24 Wall joint Expired - Lifetime US2307293A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485243A (en) * 1945-03-30 1949-10-18 Dmg Corp Glass brick
US3818670A (en) * 1973-04-23 1974-06-25 Perfect Module Systems Wall panel extension clip
US3818662A (en) * 1970-11-19 1974-06-25 Perfect Module Systems Wall retainer
US4531338A (en) * 1983-06-15 1985-07-30 Olympian Stone Company Building wall panel

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2485243A (en) * 1945-03-30 1949-10-18 Dmg Corp Glass brick
US3818662A (en) * 1970-11-19 1974-06-25 Perfect Module Systems Wall retainer
US3818670A (en) * 1973-04-23 1974-06-25 Perfect Module Systems Wall panel extension clip
US4531338A (en) * 1983-06-15 1985-07-30 Olympian Stone Company Building wall panel

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