Modular ceiling system
Abstract
A structural grid support system adapted for transferring seismic loads to the vertical structural supports of a modular structure. The system includes larger and longer high load capacity main runners with mechanically fastened cross tees, which transfer seismic forces without failing. The structural grid can provide a diaphragm using mechanically fastened connections in a single horizontal plane without requiring additional overhead support from the roof deck, or requiring fewer such supports. The main runners may include additional connecting elements disposed within the usable space beneath the runner (e.g., ventral threaded receivers) for attaching deployment-specific equipment or hardware, such as network cable trays.
Claims
exact text as granted — not AI-modified1 . A main runner for use in a ceiling grid comprising:
a first end and an opposing second end, and a body extending therebetween, said body having a cross-section comprising:
a hanger element having an open top end configured to receive hardware for suspending said main runner;
a main body element extending generally downward from a base of said hanger element;
a connecting element comprising:
a top element comprising a top side and an opposing bottom side, said top side of said top element connected to said main body element;
a middle element extending downward from said bottom side of said top element;
a bottom element comprising a top side and an opposing bottom side and a first distal end and an opposing second distal end, said top side of said bottom element connected to said middle element;
a first side element extending downward from said first distal end of said bottom element;
a second side element extending downward from said second distal end of said bottom element; and
a base element connected to said first side element and said second side element; wherein said bottom element, said first side element, said second side element, and said base element define a hollow interior cavity; wherein said top element comprises a first pair of receiving channels disposed in opposing sides thereof.
2 . The main runner of claim 1 , wherein said first pair of receiving channels are threaded.
3 . The main runner of claim 1 , wherein said bottom element comprises a second pair of receiving channels disposed in opposing sides thereof.
4 . The main runner of claim 3 , wherein said second pair of receiving channels are threaded.
5 . The main runner of claim 1 , wherein said base element comprises a pair of opposing flanges extending laterally therefrom.
6 . The main runner of claim 5 , wherein said pair of opposing flanges are sized and shaped to accept a ceiling panel on a top side thereof.
7 . The main runner of claim 1 , wherein said base element comprises a receiver disposed in a bottom side thereof.
8 . The main runner of claim 7 , wherein said receiver is generally perpendicularly disposed in said base element.
9 . The main runner of claim 8 , wherein said receiver is threaded.
10 . A modular ceiling grid system comprising:
a plurality of main runners, each main runner in said plurality of main runners having a first end and an opposing second end, with a body extending therebetween, said body having a cross-section comprising:
a hanger element having an open top end configured to receive hardware for suspending said each main runner beam;
a main body element extending generally downward from a base of said hanger element;
a connecting element comprising:
a top element comprising a top side and an opposing bottom side, said top side of said top element connected to said main body element;
a middle element extending downward from said bottom side of said top element;
a bottom element comprising a top side and an opposing bottom side and a first distal end and an opposing second distal end, said top side of said bottom element connected to said middle element;
a first side element extending downward from said first distal end of said bottom element;
a second side element extending downward from said second distal end of said bottom element; and
a base element connected to said first side element and said second side element; wherein said bottom element, said first side element, said second side element, and said base element define a hollow interior cavity: wherein said top element comprises a first pair of receiving channels disposed in opposing sides thereof; and a plurality of cross-Ts, each cross-T in said plurality of cross-T's affixed to at least one main runner in said plurality of main runners to form a generally orthogonal ceiling grid system.
11 . The modular ceiling grid system of claim 10 , wherein said plurality of main runners are connected at said first end and said second end to opposing walls of a prefabricated structure.
12 . The modular ceiling grid system of claim 11 , wherein said prefabricated structure is selected from the group consisting of: an in-plant office; a data center; a clean room; a medical examination, testing, diagnostic, laboratory, or treatment room; a quarantine or isolation room; and a botanical grow room.
13 . The modular ceiling grid system of claim 10 , wherein said plurality of main runners are suspended from an overhead structure by connecting said hanger elements to said overhead structure.
14 . The modular ceiling grid system of claim 10 , wherein said each cross-T in said plurality of cross-Ts is affixed to a main runner in said plurality of main runners by at least one bracket.
15 . The modular ceiling grid system of claim 10 , further comprising electrical, computer, or HVAC equipment installed on said modular ceiling grid system.
16 . The modular ceiling grid system of claim 10 , further comprising walkable decking installed on said modular ceiling grid system.
17 . A method for installing a ceiling comprising:
providing a plurality of main runners, each main runner in said plurality of main runners having a first end and an opposing second end, with a extending therebetween, said body having a cross-section comprising:
a hanger element having an open top end configured to receive hardware for suspending said each main runner;
a main body element extending generally downward from a base of said hanger element;
a connecting element comprising:
a top element comprising a top side and an opposing bottom side, said top side of said top element connected to said main body element;
a middle element extending downward from said bottom side of said top element;
a bottom element comprising a top side and an opposing bottom side and a first distal end and an opposing second distal end, said top side of said bottom element connected to said middle element;
a first side element extending downward from said first distal end of said bottom element;
a second side element extending downward from said second distal end of said bottom element; and
a base element connected to said first side element and said second side element;
wherein said bottom element, said first side element, said second side element, and said base element define a hollow interior cavity; and
wherein said top element comprises a first pair of receiving channels disposed in opposing sides thereof;
providing a plurality of cross-Ts; and affixing each cross-T in said plurality of cross-Ts to at least one main runner in said plurality of main runners to form a generally orthogonal ceiling grid system over a prefabricated structure.
18 . The method of claim 17 , wherein said prefabricated structure is selected from the group consisting of: an in-plant office; a data center; a clean room; a medical examination, testing, diagnostic, laboratory, or treatment room; a quarantine or isolation room; and a botanical grow room.
19 . The method of claim 17 , wherein said affixing is performed using at least one bracket.
20 . The main runner of claim 1 , wherein said first side element extending downward from said first distal end of said bottom element and said second side element extending downward from said second distal end of said bottom element are connected to said base element at about a 45 degree angle.Cited by (0)
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