SHEAR WALL ASSEMBLY

Information

  • Patent Application
  • 20210032858
  • Publication Number
    20210032858
  • Date Filed
    July 31, 2020
    4 years ago
  • Date Published
    February 04, 2021
    3 years ago
Abstract
A shear wall assembly is provided. The assembly includes a first anchor, a second anchor, a third anchor, a first bolt, a second bolt, a seismic fuse, and a rod. Each anchor includes a hollow tubular body including a first open end, a second open end, an interior including female threads, and an exterior including male threads. Each bolt includes a head and a shank. The shank includes male threads. The shank extends through an open end of an anchor. The male threads of the bolt engage with the female threads of the anchor. The seismic fuse is configured to receive the heads of the bolts and includes a hole. The rod includes an end with male threads. The rod extends through the hole of the seismic fuse into the open end of an anchor. The male threads of the rod engage with the female threads an anchor.
Description
FIELD OF INVENTION

The present invention relates generally to a connector, and more specifically to a connector that connects cross laminated timber subassemblies and a shear wall assembly that connects cross laminated timber subassemblies with cold formed steel and light wood frame sheathed shear walls.


BACKGROUND

Buildings must conform to stringent building standards and codes. The International Code Council (ICC) developed a model building code known as the International Building Code (IBC) to protect public health and safety regarding construction. The ICC has a listing program that offers a fast and cost-effective way for manufacturers of building products to show that their product complies with applicable standards referenced in building and other applicable codes. A connector that connects cross laminated timber (CLT) subassemblies and a shear wall assembly that connects CLT subassemblies with cold formed steel and light wood frame sheathed shear walls that comply with building codes and qualify for the ICC listing program would be advantageous.


SUMMARY

A shear wall assembly to connect hybrid CLT shear walls with CLT floor diaphragms is provided. The assembly includes a first anchor, a second anchor, a third anchor, a first bolt, a second bolt, a seismic fuse, and a rod. Each anchor includes a hollow tubular body including a first open end, a second open end, an interior including female threads and an exterior including male threads. Each bolt includes a head and a shank. The shank includes male threads. The shank extends through an open end of an anchor. The male threads of the bolt engage with the female threads of the interior of the anchor. The seismic fuse is connected to receive the heads of the bolts. The seismic fuse also includes a hole. The rod includes an end with male threads. The rod extends through the hole of the seismic fuse into the open end of an anchor. The male threads of the rod engage with the females threads of the interior of the anchor.





BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing summary, as well as the following detailed description will be better understood when read in conjunction with the appended drawings. For the purpose of illustration, there is shown in the drawings different embodiments. It should be understood, however, that the teachings are not limited to the precise connector and shear wall assembly shown.



FIG. 1 is a section view of a connector;



FIG. 2a is a section view of a floor beam and floor section;



FIG. 2b is a perspective view of the floor beam and floor section with a plurality of connectors installed;



FIG. 3a is a perspective view of a section of the floor beam;



FIG. 3b is a perspective view of a section of the floor beam with an anchor installed;



FIG. 3c is an exploded view of a section view of the floor beam and the plurality of connectors;



FIG. 4 is a cross section of a low-rise building;



FIG. 5 is a shear wall assembly;



FIG. 6 is an elevation view of a first anchor, a second anchor, and a third anchor being installed in a first wall pier;



FIG. 7 is an elevation view of a floor diaphragm being installed on the anchors;



FIG. 8 is an elevation view of a first bolt and a second bolt being installed in the anchors;



FIG. 9 is an elevation view of a seismic fuse being installed;



FIG. 10 is an elevation view of a second wall pier being installed; and



FIG. 11 is an elevation view of a rod being installed.





DETAILED DESCRIPTION

A connector that connects cross laminated timber (CLT) subassemblies and a shear wall assembly that connects CLT subassemblies with cold formed steel and light wood frame sheathed shear walls that comply with building codes and qualify for the International Code Council (ICC) listing program is provided.



FIG. 1 is a section view of a connector 10. As shown in FIG. 1, a connector 10 including an anchor 100 and a bolt 200 to connect a floor system is provided. The anchor 100 includes a hollow tubular body 110. The hollow tubular body 110 includes a first open end 120 and a second open end 130. The hollow tubular body 110 also includes an interior 140 and an exterior 150. As shown in FIG. 1, the exterior 150 of the body 110 includes male threads 160. The diameter of the exterior 150 of the anchor 100 may be approximately 40-60 mm. The interior 140 of the body 110 may include female threads 170. As shown in FIG. 1, the diameter of the interior 140 may vary. For example, a portion of the interior 140 nearest the first open end 120 may have a smaller diameter than the interior 140 nearest the second open end 130.


The bolt 200 includes a head 210 and a shank 220. The shank 220 includes male threads 230. The diameter of the shank 220 and the diameter of the portion of the interior 140 nearest the first open end 120 are complimentary so that the shank 220 of the bolt 200 may be screwed into the interior 140 of the anchor 100 through the first open end 120. The male threads 230 of the shank 220 engage with the female threads 170 of the interior 140 of the anchor 100. The head 210 of the bolt 200 may include a recess 240 to allow a tool to screw the bolt 200 into the anchor 100. The bolt may be a 20 mm to 80 mm metric screw. The bolt may be a 40 mm metric screw with inner hex wrench.



FIG. 2a is a section view of a floor beam 310 and floor section 320. FIG. 2b is a perspective view of the floor beam 310 and floor section 320 with a plurality of connectors 10 installed. As shown in FIGS. 2a-2b, a plurality of connectors 10 may be used to connect a floor system 300. More specifically, the connectors 10 may be utilized in mechanical timber-timber shear and tension transfer in out-of-plane applications with long-span floor systems. As shown in FIG. 2a, the floor system 300 includes at least a floor beam 310 and a floor 320. The span of the floor 320 may be greater than 20 feet wherein the span is measured from centerline to centerline between beams. As shown in FIG. 2b, a plurality of connectors 10 are used to connect the floor 320 to the floor beam 310. The anchors 100 are embedded into the floor beam 310. To connect the floor 320 to the floor beam 310, the bolts 200 are screwed into the floor 320 and the embedded anchors 100. The floor beam 310 and the floor 320 may be made from cross laminated timber (CLT). The floor 320 may be predrilled to provide a recess to allow the first open end 120 of the anchor 100 to protrude partially into the bottom 330 of the floor 320. The floor 320 may also be predrilled to allow the head 210 of the bolt 200 to sit flush with the top 340 of the floor 320.



FIG. 3a is a perspective view of a section of the floor beam 310. FIG. 3b is a perspective view of a section of the floor beam 310 with an anchor 100 installed. FIG. 3c is an exploded view of a section view of the floor beam 310 and the plurality of connectors 10. As shown in FIG. 3a-3c, the floor beam 310 may be predrilled to allow the anchor 100 to screw into the floor beam 310. As shown in FIG. 3a, the floor beam 310 is predrilled to compliment the anchor's 100 interior 140 and exterior 150 diameters as illustrated in FIG. 1. As shown in FIG. 3b, the second open end 130 of the anchor 100 is screwed into the floor beam 310 at the predrilled location. The male threads 160 on the exterior 150 of the anchor 100 and the female threads 170 on the interior 140 portion closest to the second open end 130 (shown in FIG. 1) engage with the floor beam 310. As shown in FIG. 3c, a plurality of connectors 10 including anchors 100 and bolts 200 are installed to connect the floor 320 (not illustrated for clarity) to the floor beam 310. Although eleven connectors 10 are illustrated in FIG. 3c, any number of connectors 10 may be used to connect the floor 320 to the floor beam 310 according to design loads. The spacing of the connectors 10 are dependent on performance and design requirements.



FIG. 4 is a cross section of a low-rise building. As shown in FIG. 4, a shear wall assembly 400 that may be used to connect floor diaphragms 600 and walls 500 of low-rise buildings is also provided. The shear wall assembly 400 may be used to combine CLT subassemblies with cold formed steel (CFS) and light wood frame (LWF) sheathed shear walls.



FIG. 5 is a shear wall assembly 400. As shown in FIG. 5, the shear wall assembly 400 may be used to connect a first wall pier 500a, a floor diaphragm 600, and a second wall pier 500b. The shear wall assembly 400 includes a first connecter 10a, a second connector 10b, a third anchor 100c, a seismic fuse 410, and a rod 420. The first connector 10a includes a first anchor 100a and a first bolt 200a, and the second connector 10b includes a second anchor 100b and a second bolt 200b. The first and second connectors 10a, 10b include the details and embodiments of the connectors 10 previously described. The third anchor 100c includes the details and embodiments of the anchor 100 previously described.



FIG. 6 is an elevation view of a first anchor 100a, a second anchor 100b, and a third anchor 100c being installed in a first wall pier 510a. As shown in FIG. 6, the first anchor 100a, the second anchor 100b, and the third anchor 100c are screwed and embedded into the first wall pier 500a. The first wall pier 500a may be made from CLT. The top 510a of the first wall pier 500a may be predrilled similarly to the floor beam 310 described in FIG. 3a. The second open ends 130a-c of the anchors 100a-c are screwed into the first wall pier 500a at the predrilled locations. The male threads 160a-c on the exteriors 150a-c of the anchors 100a-c and the female threads 170a-c on the interior 140a-c portions closest to the second open ends 130a-c (as shown in FIG. 1) engage with the first wall pier 500a. The anchors 100a-c may be factory installed.



FIG. 7 is an elevation view of a floor diaphragm 600 being installed on the anchors 100a, 100b, 100c. As shown in FIG. 7, after the first wall pier 500a is installed in the field, the floor diaphragm 600 is installed. The floor diaphragm 600 may be installed as one section or as two sections as shown in FIG. 7. The placement of the floor diaphragm 600 is indexed to the location of the anchors 100a-c. The floor diaphragm 600 may be made from CLT. The floor diaphragm 600 may be predrilled to provide a recess to allow the first open ends 120a-c of the anchors 100a-c to protrude partially into the bottom 610 of the floor diaphragm 600.



FIG. 8 is an elevation view of a first bolt 200a and a second bolt 200b being installed in the anchors 100a, 100b. As shown in FIG. 8, after the floor diaphragm 600 is installed, the first and second bolts 200a, 200b are installed. The first and second bolts 200a-b extend through the floor diaphragm 600 into the first open ends 120a-b of the first and second anchors 100a-b respectively. The male threads 230a-b of the bolts 200a-b engage with the female threads 170a-b on the interiors 140a-b of the first and second anchors 100a-b. The bolts 200a-b clamp the floor 600 to the first wall pier 500a.



FIG. 9 is an elevation view of a seismic fuse 410 being installed. As shown in FIG. 9, the seismic fuse 410 is installed over the heads 210a-b of the bolts 200a-b. The seismic fuse 410 may include recesses configured to receive the heads 210a-b of the bolts 200a-b. The seismic fuse 410 may also include a protrusion 420. The seismic fuse 410 includes a hole 415 that aligns with the location of the third anchor 100c after placement. The placement of the seismic fuse 410 is indexed to the location of the bolts 200a-b.



FIG. 10 is an elevation view of a second wall pier 500b being installed. As shown in FIG. 10, after the seismic fuse 410 is placed, the second wall pier 500b is installed on the seismic fuse 410. The placement of the second wall pier 500b is indexed to the location of the seismic fuse 410. The bottom of the second wall pier 500b may include a recess configured to receive the protrusion 420 (shown in FIG. 9) on the seismic fuse 410. The second wall pier 500b may include an opening 510. The second wall pier 500b may be made from CLT. The second wall pier 500b is predrilled from the bottom of the opening 510 to the bottom of the second wall pier 500b. The floor 600 may also be predrilled so that there is an open path from the first open end 120c of the third anchor 100c to the bottom of the opening 510 in the second wall pier 500b.



FIG. 11 is an elevation view of a rod 700 being installed. As shown in FIG. 11, after the second wall pier 500b is placed, the rod 700 is installed. The length of the rod 700 may vary according to design loads. The rod 700 may be an M30 metric rod. The rod 700 includes a first end 710 and a second end 720. At least a portion of both ends 710, 720 of the rod 700 include male threads 730, 740. The rod 700 is placed by sliding the first end 710 of the rod 700 through the opening 510 in the second wall pier 500b down the predrilled open path to the first open end 120 of the third anchor 100c. The male threads 730 of the first end 710 of the rod 700 screw into and engage with the female threads 170c on the interior 140c of the third anchor 100c. The rod 700 is secured to the second wall pier 500b by screwing a nut 750 onto the male threads 740 of the second end 720 of the rod 700. The nut 750 is screwed onto the second end 720 until the nut 750 is snug against the bottom of the opening 510.


In the assembly described in FIGS. 5-11, the anchors 100a-c are designed for diaphragm and Lateral Force Resistant Systems (LFRS) shear transfer as well as compression transfer. The floor diaphragm 600 is designed for diaphragm shear transfer. The floor diaphragm 600 transfers dead and live loads to the wall piers 500a,b. The bolts 200a,b are designed for diaphragm shear transfer and compression perpendicular to the grain transfer. The seismic fuse 410 is designed to dissipate seismic energy. The seismic fuse 410 transfers compression bearing and shear to the bolts 200a,b. The rod 600 is designed for overturning resistance. The shear wall assembly 400 may be designed to comply with building and applicable codes set forth by the ICC.


Having thus described in detail a preferred selection of embodiments of the present invention, it is to be appreciated and will be apparent to those skilled in the art that many physical changes could be made to the connector 10 and shear wall assembly 400 without altering the inventive concepts and principles embodied therein. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore to be embraced therein.

Claims
  • 1. A connector comprising: an anchor including a hollow tubular body including a first open end, a second open end, an interior, and an exterior, the interior including female threads and the exterior including male threads; anda bolt including a shank including second male threads, the shank extending through the first open end into the interior of the anchor;wherein the second male threads of the bolt engage with the female threads of the anchor.
  • 2. The connector of claim 1, wherein the bolt further includes a head, the head including a recess configured to receive a tool.
  • 3. The connector of claim 1, wherein the bolt is a 20-80 mm metric screw.
  • 4. The connector of claim 1, wherein the interior of the anchor includes a first portion nearest the first open end and a second portion nearest the second open end, the first portion having a smaller diameter than the second portion.
  • 5. A shear wall assembly comprising: a first anchor including a first hollow tubular body including a first open end, a second open end, a first interior, and a first exterior, the first interior including first female threads and the first exterior including first male threads;a second anchor including a second hollow tubular body including a third open end, a fourth open end, a second interior, and a second exterior, the second interior including second female threads and the second exterior including second male threads;a third anchor including a third hollow tubular body including a fifth open end, a sixth open end, a third interior, and a third exterior, the third interior including third female threads and the third exterior including third male threads;a first bolt including a first head and a first shank including fourth male threads, the first shank extending through the first open end into the first interior of the first anchor and the fourth male threads engaging with the first female threads;a second bolt including a second head and a second shank including fifth male threads, the second shank extending through the third open end into the second interior of the second anchor and the fifth male threads engaging with the second female threads;a seismic fuse including a hole; anda rod including sixth male threads, the rod extending through the hole and the fifth open end into the third interior of the third anchor and the sixth male threads engaging with the third female threads.
  • 6. The assembly of claim 5, wherein the seismic fuse further includes a protrusion.
  • 7. The assembly of claim 5, wherein the seismic fuse further includes a first recess configured to receive the first head and a second recess configured to receive the second head.
  • 8. The assembly of claim 5, wherein the rod is a M30 metric rod.
  • 9. The assembly of claim 5, wherein each of the first bolt and the second bolt is a 20-80 mm metric screw with a hex socket in head thereof.
  • 10. The assembly of claim 5, wherein the first exterior has a first diameter, the second exterior has a second diameter, and the third exterior has a third diameter.
  • 11. The assembly of claim 10, wherein the first diameter, the second diameter, and the third diameter are 40 mm to 60 mm.
  • 12. The assembly of claim 10, wherein the assembly is configured to connect cross laminated timber subassemblies with cold formed steel and light wood frame sheathed shear walls.
  • 13. A method for assembling a shear wall assembly comprising: accumulating a first wall pier, a second wall pier, a floor diaphragm, a first anchor, a second anchor, a third anchor, a first bolt, a second bolt, a third bolt, a seismic fuse. and a rod;installing a first anchor, a second anchor, and a third anchor into a first end of the first wall pier,the first anchor including a first hollow tubular body including a first open end, a second open end, a first interior, and a first exterior, the first interior including first female threads and the first exterior including first male threads,the second anchor including a second hollow tubular body including a third open end, a fourth open end, a second interior, and a second exterior, the second interior including second female threads and the second exterior including second male threads,the third anchor including a third hollow tubular body including a fifth open end, a sixth open end, a third interior, and a third exterior, the third interior including third female threads and the third exterior including third male threads;installing a first bolt, the first bolt including a first head and a first shank including fourth male threads, the first shank extending through a first opening in the floor diaphragm and into the first interior of the first anchor and the fourth male threads engaging with the first female threads;installing a second bolt, the second bolt including a second head and a second shank including fifth male threads, the second shank extending through a second opening in the floor diaphragm and into the second interior of the second anchor and the fifth male threads engaging with the second female threads;installing a seismic fuse over the first head and the second head, the seismic fuse including a hole aligned with the location of the third anchor;installing a second wall pier onto the seismic fuse, the second wall pier including an opening aligned with the location of the third anchor; andinstalling a rod, the rod including sixth male threads, the rod extending through the opening in the second wall pier, through the hole in the seismic fuse, through the third opening in the floor diaphragm, and through the fifth open end and into the third interior of the third anchor and the sixth male threads engaging with the third female threads.
  • 14. A floor system comprising: a floor beam including a plurality of anchors, each anchor of the plurality of anchors including a hollow tubular body including a first open end, a second open end, an interior, and an exterior, the interior including female threads and the exterior including male threads; anda floor connected to the floor beam with a plurality of bolts, each bolt of the plurality of bolts including a shank including second male threads, the shank extending through the first open end into the interior of the anchor;wherein the second male threads of each bolt engage with the female threads of each anchor.
  • 15. The floor system of claim 14, wherein the floor spans at least 20 feet.
  • 16. The floor system of claim 14, wherein the floor beam and the floor are cross laminated timber (CLT).
  • 17. The floor system of claim 14, wherein each bolt further includes a head, the head including a recess configured to receive a tool.
  • 18. The floor system of claim 14, wherein each bolt is a 20-80 mm metric screw.
  • 19. The floor system of claim 14, wherein the interior of each anchor includes a first portion nearest the first open end and a second portion nearest the second open end, the first portion having a smaller diameter than the second portion.
  • 20. A shear wall system comprising: a first wall pier;a second wall pier;a floor diaphragm;a first anchor arranged for installing in a first end of the first wall pier at a first predetermined location, the first anchor including a first hollow tubular body including a first open end, a second open end, a first interior, and a first exterior, the first interior including first female threads and the first exterior including first male threads that engage with the first wall pier;a second anchor arranged for installing in a first end of the first wall pier at a second predetermined location, the second anchor including a second hollow tubular body including a third open end, a fourth open end, a second interior, and a second exterior, the second interior including second female threads and the second exterior including second male threads that engage with the first wall pier;a third anchor arranged for installing in a first end of the first wall pier at a third predetermined location between the first and second predetermined locations, the third anchor including a third hollow tubular body including a fifth open end, a sixth open end, a third interior, and a third exterior, the third interior including third female threads and the third exterior including third male threads that engage with the first wall pier;a first bolt including a first head and a first shank including fourth male threads, the first shank extending through a first opening in the floor diaphragm and through the first open end into the first interior of the first anchor and the fourth male threads engaging with the first female threads;a second bolt including a second head and a second shank including fifth male threads, the second shank extending through a second opening in the floor diaphragm and through the third open end into the second interior of the second anchor and the fifth male threads engaging with the second female threads;a seismic fuse installed over the first head and the second head, the seismic fuse including a hole aligned with the location of the third anchor;a second wall pier arranged for installation on the seismic fuse and including an opening aligned with the location of the third anchor; and,a rod including sixth male threads, the rod extending through the opening in the second wall pier, through the hole of the seismic fuse, through a third opening in the floor diaphragm, and through the fifth open end into the third interior of the third anchor and the sixth male threads engaging with the third female threads.
  • 21. The shear wall system of claim 20, wherein the seismic fuse includes depressions to receive the first head of the first bolt and the second head of the second bolt.
  • 22. The shear wall system of claim 20, wherein the openings in the floor diaphragm include recesses to allow the first open end of the first anchor, the third open end of the second anchor, and the fifth open end of the third anchor to protrude partially into the bottom of the floor diaphragm.
  • 23. The shear wall system of claim 20, wherein the openings in the floor diaphragm include recesses to allow the first head of the first bolt and the second head of the second bolt to sit flush with the top of the floor diaphragm.
  • 24. The assembly of claim 20, wherein the seismic fuse further includes a first recess configured to receive the first head and a second recess configured to receive the second head.
CROSS REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Application No. 62/881,585 filed on Aug. 1, 2019 for SHEAR WALL ASSEMBLY, which is incorporated by reference as if fully set forth.

Provisional Applications (1)
Number Date Country
62881585 Aug 2019 US