Search

EP-4043658-B1 - MODULAR BUILDING CONNECTOR

EP4043658B1EP 4043658 B1EP4043658 B1EP 4043658B1EP-4043658-B1

Inventors

  • BOWRON, JULIAN

Dates

Publication Date
20260513
Application Date
20180119

Claims (10)

  1. A connector assembly (100), comprising an upper connector (102) coupled to a lower connector (8) and a gusset plate (20) sandwiched between the upper and lower connectors, the lower connector comprising: a lower connector body (10) having a lower connector body column receiving end (14) and a lower connector body gusset contact end (30), the column receiving end (14) being adapted for receiving a first end of a first module frame and the gusset contact end being adapted for coupling to the gusset plate (20); at least a pair of lower connector arms (12), each lower connector arm coupled to and extending from the lower connector body and having lower connector arm inner face (32), a lower connector arm outer face (34), a lower connector arm gusset contact face (18), a lower connector arm load bearing face (36) and a lower connector arm beam contact face (38), the beam contact face being positioned distal from the lower connector body, each lower connector arm having at least one fixing aperture (42) on the load bearing face for receiving a fastening means (28) to couple the lower connector to the upper connector, and each lower connector arm having a hole (48) formed that extends from the lower connector arm inner face to the lower connector arm outer face, the hole (48) forming a channel from the lower connector arm inner face (32) to the lower connector arm outer face (34); a lower connector arm boss (44) coupled to and extending from the beam contact face of each arm, the boss having a lower connector arm weld receiving bevel (46) extending from the distal end of the arm; and a fastening means (28) configured to, in use, engage the hole (48) in the lower connector arm inner face (32) and an adjacent second lower connector arm inner face of a second lower connector arm to couple, in use, the lower connector arm (12) to the second lower connector arm; the upper connector comprising: an upper connector body (108) having an upper connector body column receiving end (202) and an upper connector body gusset contact end (204), the column receiving end being adapted for receiving a first end of a second module frame and the gusset contact end being adapted for coupling to the gusset plate; at least a pair of upper connector arms (104), each upper connector arm coupled to and extending from the upper connector body and having an upper connector arm inner face (206), an upper connector arm outer face (208), an upper connector arm gusset contact face (210), an upper connector arm load bearing face (212) and an upper connector arm beam contact face (214), the beam contact face being positioned distal from the upper connector body; each upper connector arm having at least one upper connector arm fixing aperture (216) for receiving a fastening means (28) to couple the lower connector to the upper connector and at least one upper connector arm gusset coupling aperture (218) for receiving a second fastening means to couple the upper connector to the gusset plate, and each upper connector arm having a hole (50) formed that extends from the upper connector arm inner face to the upper connector arm outer face; and an upper connector arm boss coupled to and extending from the upper connector arm beam contact face of each upper connector arm, the boss having an upper connector arm weld receiving bevel extending from the distal end of the arm; the gusset plate comprising: a gusset plate first face, a gusset plate second face and gusset plate through holes (302) for receiving the coupling and fastening means to couple the upper connector and the lower connector.
  2. The connector assembly according to claim 1, further comprising the second lower connector coupled to the lower connector and a second upper connector, with the gusset plate positioned between the second lower connector and the second upper connector; the second lower connector comprising: a second lower connector body having a second lower connector body column receiving end and a second lower connector body gusset contact end, the second lower connector body column receiving end being adapted for receiving a first end of a third module frame and the second lower connector body gusset contact end being adapted for coupling to the gusset plate; at least a pair of second lower connector arms, each second lower connector arm coupled to and extending from the second lower connector body and having a second lower connector arm inner face, a second lower connector arm outer face, a second lower connector arm gusset contact face, a second lower connector arm load bearing face and a second lower connector arm beam contact face, the second lower connector arm beam contact face being positioned distal from the second lower connector body, each second lower connector arm having at least one fixing aperture on the second lower connector arm load bearing face for receiving a fastening means to couple the second lower connector to the second upper connector, and each second lower connector arm having a hole formed that extends from the second lower connector arm inner face to the second lower connector arm outer face; and a second lower connector arm boss coupled to and extending from the second lower connector arm beam contact face of each arm, the second lower connector arm boss having a second lower connector arm weld receiving bevel extending from the distal end of the arm; and the second upper connector comprising: a second upper connector body having a second upper connector body column receiving end and a second upper connector body gusset contact end, the second upper connector column receiving end being adapted for receiving a first end of a fourth module frame and the second upper connector gusset contact end being adapted for coupling to the gusset plate; at least a pair of second upper connector arms, each second upper connector arm coupled to and extending from the second upper connector body and having a second upper connector arm inner face, a second upper connector arm outer face, a second upper connector arm gusset contact face, a second upper connector arm load bearing face and a second upper connector arm beam contact face, the second upper connector arm beam contact face being positioned distal from the second upper connector body; each second upper connector arm having at least one second upper connector arm fixing aperture for receiving a fastening means to couple the second lower connector to the second upper connector and at least one second upper connector arm gusset coupling aperture for receiving a second fastening means to couple the second upper connector to the gusset plate, and each second upper connector arm having a hole formed that extends from the second upper connector arm inner face to the second upper connector arm outer face; and a second upper connector arm boss coupled to and extending from the second upper connector arm beam contact face of each upper connector arm, the second upper connector arm boss having a second upper connector arm weld receiving bevel extending from the distal end of the second upper connector arm; wherein the second lower connector arm outer face is proximate the lower connector arm outer face, the second upper connector arm outer face is proximate the upper connector arm outer face, and the second lower connector arm gusset contact face is proximate the second upper connector arm load bearing face.
  3. The connector assembly of claim 2, wherein the fastening means engages the hole in the lower connector arm inner face and the second lower connector arm inner face and couples the lower connector arm to the second lower connector arm.
  4. The connector assembly of claim 2 or 3, wherein a second fastening means engages the hole in the upper connector arm inner face and the second upper connector arm inner face and couples the upper connector arm to the second upper connector arm.
  5. The connector assembly according to any one of claims 2 to 4, further comprising: a second gusset plate positioned on the lower connector arm load bearing face and the second lower connector arm load bearing face, the second gusset plate has a plurality of apertures, the lower connector arm load bearing face having a hole aligned with one of the plurality of apertures on the second gusset plate, and the second lower connector arm load bearing face having a hole aligned with one of the other plurality of apertures; and a fastening means engaging the aperture on the second gusset plate, where the aperture is aligned with the hole on the lower connector load bearing face for affixing the second gusset plate to the lower connector, and a second fastening means engaging another aperture of the plurality of apertures on the second gusset plate, where the other aperture is aligned with the hole on the second lower connector arm load bearing face for affixing the second gusset plate to the second lower connector.
  6. The connector assembly according to claim 5, further comprising: a projection coupled to and extending from the second gusset plate; the projection extending in a direction away from the lower connector arm load bearing face.
  7. The connector assembly according to claim 6, further comprising a brace coupled to the projection.
  8. A method of forming a connector assembly (100) as defined in any one of claims 2 to 7, the method comprising the steps of: positioning the lower connector, the upper connector, the gusset plate, the second lower connector and the second upper connector; coupling the lower connector to the upper connector; coupling the second lower connector to the second upper connector; coupling the lower connector to the second lower connector; and coupling the upper connector to the second upper connector.
  9. A method of coupling adjacent modular buildings, wherein the modular buildings together have a connector assembly (100) as defined in any one of claims 2 to 7, the method comprising the steps of: positioning a first modular unit of a first modular building adjacent to a modular unit of the other modular building; coupling the lower connector of the first modular unit of the first modular building to the second lower connector of the modular unit of the other building; and coupling the upper connector of the first modular unit of the first modular building to the second upper connector of the modular unit of the other building.
  10. A modular building comprising a connector assembly as defined in any one of claims 1 to 7.

Description

CROSS REFERENCE TO RELATED APPLICATION This application claims the benefit of and priority to U.S. Provisional Patent Application No. 62/448,123 filed January 19th, 2017 under the title MODULAR BUILDING CONNECTOR. FIELD The invention relates to a connector, a connector assembly, a method for coupling modular frame units having the connector assembly, a method of assembling a modular unit having the connector assembly and a building having the connector assembly. BACKGROUND Prefabricating modular building units constructed from standardized components in a controlled factory setting can be desirable due to the lowered costs and the increased quality which is obtainable in comparison to performing similar work on an outdoor construction job site. Thus prefabricated modular building units having a floor, walls and an overhead structure, and which contain all the systems and furnishings pre-installed within them are preferred and known in the art. Building assembly systems composed of the means and methods to join two or more modular building units together to form a larger structure are also known in the art. PCT application numbers PCT/CA2014/050110, PCT/CA2015/050369, PCT/CA2016/050434 and PCT/CA2016/050954 disclose connectors and connector assemblies that can be used for fabricating a modular unit and building. There is a need in the art for a connector assembly that be used for coupling a pre-fabricated modular unit to a pre-existing modular building. In addition, there is a need in the art for a connector block that can be used to form the connector assembly described above. Further, there is a need in the art for a method of coupling a pre-fabricated modular unit to a pre-existing modular building to expand the footprint of the modular building. WO 2015/164975 A1 discloses a further example of a connector assembly of the state of the art. SUMMARY The invention is defined by the appended claims. In one aspect, the specification relates to a connector assembly comprising an upper connector coupled to a lower connector and a gusset plate sandwiched between the upper and lower connectors, the lower connector having: a lower connector body having a lower connector body column receiving end and a lower connector body gusset contact end, the column receiving end being adapted for receiving a first end of a first module frame and the gusset contact end being adapted for coupling to the gusset plate;at least a pair of lower connector arms, each lower connector arm coupled to and extending from the lower connector body and having lower connector arm inner face, a lower connector arm outer face, a lower connector arm gusset contact face, a lower connector arm load bearing face and a lower connector arm beam contact face, the beam contact face being positioned distal from the lower connector body, each lower connector arm having at least one fixing aperture on the load bearing face for receiving a fastening means to couple the lower connector to the upper connector, and each lower connector arm having a hole formed that extends from the lower connector arm inner face to the lower connector arm outer face; anda lower connector arm boss coupled to and extending from the beam contact face of each arm, the boss having a lower connector arm weld receiving bevel extending from the distal end of the arm;the upper connector having: an upper connector body having an upper connector body column receiving end and an upper connector body gusset contact end, the column receiving end being adapted for receiving a first end of a second module frame and the gusset contact end being adapted for coupling to the gusset plate;at least a pair of upper connector arms, each upper connector arm coupled to and extending from the upper connector body and having an upper connector arm inner face, an upper connector arm outer face, an upper connector arm gusset contact face, an upper connector arm load bearing face and an upper connector arm beam contact face, the beam contact face being positioned distal from the upper connector body; each upper connector arm having at least one upper connector arm fixing aperture for receiving a fastening means to couple the lower connector to the upper connector and at least one upper connector arm gusset coupling aperture for receiving a second fastening means to couple the upper connector to the gusset plate, and each upper connector arm having a hole formed that extends from the upper connector arm inner face to the upper connector arm outer face; andan upper connector arm boss coupled to and extending from the upper connector arm beam contact face of each upper connector arm, the boss having an upper connector arm weld receiving bevel extending from the distal end of the arm;the gusset plate having: a gusset plate first face, a gusset plate second face and gusset plate through holes for receiving the coupling and fastening means to couple the upper connector and the lower connector. In another aspect, t