The present invention provides a portable modular roof truss system. In one embodiment, a portable modular roof truss system comprises at least one roof truss device comprising a roof apex collar, a crossbar, two arms, and two connecting members. The collar comprises two separate members coupled tog
The present invention provides a portable modular roof truss system. In one embodiment, a portable modular roof truss system comprises at least one roof truss device comprising a roof apex collar, a crossbar, two arms, and two connecting members. The collar comprises two separate members coupled together by at least one bolt to form an opening capable of receiving a roof pole. In another embodiment, a portable modular roof truss system comprises two roof apex collars. In yet another embodiment, a roof truss device comprises a collar, a crossbar, two arms, and two connecting members. The collar comprises two separate members coupled together by a hinge to form an opening capable of receiving a roof pole.
대표청구항▼
1. A roof truss apex device, comprising: a roof apex collar comprising: a top member including a top surface that comprises a substantially convex surface;a bottom member; anda locking mechanism to couple the top member to the bottom member to form an opening in the collar, wherein the opening is co
1. A roof truss apex device, comprising: a roof apex collar comprising: a top member including a top surface that comprises a substantially convex surface;a bottom member; anda locking mechanism to couple the top member to the bottom member to form an opening in the collar, wherein the opening is configured for receiving a truss member;a first elongated arm with a proximal end coupled to the bottom member of the collar; anda second elongated arm with a proximal end coupled to the bottom member of the collar, wherein the first and second arms are transverse in relation to one another and slope downwardly away from the collar;wherein the device is configured for engaging two truss segments sloping downwards away from the collar;wherein the opening is shaped to accommodate a profile of the truss member;wherein the locking mechanism comprises at least one bolt that couples the top member to the bottom member of the collar to engage and maintain in place the truss member within the opening;wherein the top member further comprises; a bottom surface; andat least one countersunk hole located at a distal end of the top surface configured for receiving the bolt; andwherein the botom surface is a substantially semi-cylindrial concave surface configured for both receiving and supporting walls of the truss member. 2. The roof truss apex device of claim 1, further comprising: an elongated crossbar transversely coupled to the first arm and the second arm. 3. The roof truss apex device of claim 2, further comprising: a first hollow connecting member coupled to a distal end of the first arm; anda second hollow connecting member coupled to a distal end of the second arm;wherein the first and second connecting members are configured for receiving and engaging an I-beam truss segment. 4. The roof truss apex device of claim 1, wherein the bottom member comprises: a top surface;a bottom surface; andat least one countersunk hole configured for receiving the bolt and residing in a plane both parallel to and directly below the countersunk hole of the top member;wherein the top surface is a substantially semi-cylindrical concave surface configured for both receiving and supporting walls of the truss member;wherein the bottom surface is a substantially concave surface. 5. The roof truss apex device of claim 4, wherein the bolt is countersunk within the top surface of the top member, remaining flush with the top surface of the top member when coupling the top member to the bottom member. 6. The roof truss apex device of claim 1, wherein the top member further comprises at least one countersunk hole located at a distal end of the top surface. 7. A portable modular roof truss system, comprising: a first roof truss apex device, comprising: a first roof apex collar comprising: a first top member including a top surface comprising a substantially convex surface;a first bottom member; anda first locking mechanism to couple the first top member to the first bottom member to form a first opening in the collar, wherein the first opening is configured for receiving a first truss member;a first elongated arm with a proximal end coupled to the first bottom member of the first collar; anda second elongated arm with a proximal end coupled to the first bottom member of the first collar, wherein the first and second arms are transverse in relation to one another and slope downwardly away from the first collar;wherein the first device is configured for engaging two truss segments sloping downwards away from the first collar; wherein the first opening is shaped to accommodate a profile of the first truss member;wherein the first device further comprises: a first elongated crossbar transversely coupled to the first arm and the second arm, and residing in a plane both parallel to the ground and below the first collar;a first hollow connecting member coupled to a distal end of the first arm; anda second hollow connecting member coupled to a distal end of the second arm;wherein the first and second connecting members are configured for receiving and engaging an I-beam truss segment; anda second roof truss apex device residing in a plane both parallel to and below the first roof truss apex device, comprising: a second roof apex collar comprising: a second top member;a second bottom member; anda second locking mechanism to couple the second top member to the second bottom member to form a second opening in the second collar,wherein the second opening is configured for receiving a second truss member;a third elongated arm with a proximal end coupled to the second bottom member of the second collar; anda fourth elongated arm with a proximal end coupled to the second bottom member of the second collar, wherein the third and fourth arms are transverse in relation to one another and slope downwardly away from the second collar;wherein the second device is configured for engaging two truss segments sloping downwards away from the second collar; andwherein the second opening is shaped to accommodate the profile of the second truss member. 8. The system of claim 7, wherein the second device further comprises: a second elongated crossbar transversely coupled to the third arm and the fourth arm, and residing horizontally below the second collar;a third hollow connecting member coupled to a distal end of the third arm; anda fourth hollow connecting member coupled to a distal end of the fourth arm;wherein the third and fourth connecting members are configured for coupling to the I-beam truss segment. 9. The system of claim 8, wherein the first, second, third and fourth hollow connecting members, the first, second, third and fourth arms, and the first and second elongated crossbars are cylindrical in shape. 10. The system of claim 7, wherein the second truss member resides in a plane both parallel to and directly below the first truss member. 11. The system of claim 7, wherein the first truss member and the second truss member reside in a plane perpendicular to the first device and the second device. 12. The system of claim 7, wherein: the third arm resides in a plane both parallel to and directly below the first arm; andthe fourth arm resides in a plane both parallel to and directly below the second arm. 13. A portable modular roof truss system, comprising: a first roof apex collar comprising: a first top member including a top surface comprising a substantially convex surface;a first bottom member; anda first locking mechanism to couple the first top member to the first bottom member to form a first opening in the first collar, wherein the first opening is configured for receiving a first truss member;a first elongated arm with a proximal end coupled to the first bottom member of the first collar; anda second elongated arm with a proximal end coupled to the first bottom member of the first collar, wherein the first and second arms are transverse and slope downwards away from the first collar;wherein the system is configured for engaging two truss segments sloping downwards away from the first collar; andwherein the first opening is shaped to accommodate a profile of the first truss member; anda second roof apex collar residing in a plane both parallel to and below the first roof apex collar, comprising: a second top member;a second bottom member; anda second locking mechanism to couple the second top member to the second bottom member to form a second opening in the second collar, wherein the second opening is configured for receiving a second truss member;a third elongated arm with a proximal end coupled to the second bottom member of the second collar; anda fourth elongated arm with a proximal end coupled to the second bottom member of the second collar, wherein the third and fourth arms are transverse and slope downwards away from the second collar;wherein the system is configured for engaging two truss segments sloping downwards away from the second collar; andwherein the second opening is shaped to accommodate the profile of the second truss member. 14. The system of claim 13, further comprising: an elongated crossbar transversely coupled to the third arm and the fourth arm, and residing horizontally below the second collar;a first hollow connecting member coupled to a distal end of the first arm;a second hollow connecting member coupled to a distal end of the second arm;a third hollow connecting member coupled to a distal end of the third arm; anda fourth hollow connecting member coupled to a distal end of the fourth arm;wherein the first, second, third and fourth hollow connecting member are configured for receiving and engaging an I-beam truss segment. 15. The system of claim 14, further comprising: a plurality of filler bars, wherein each of the plurality of filler bars is coupled to the first arm and the third arm, and arranged in a zig zag pattern between the first arm and the third arm. 16. The system of claim 14, further comprising: a plurality of filler bars, wherein each of the plurality of filler bars is coupled to the second arm and the fourth arm, and arranged in a zig zag pattern between the second arm and the fourth arm. 17. The system of claim 14, wherein the first, second, third and fourth hollow connecting members, the first, second, third and fourth arms, and the first and second elongated crossbars are cylindrical in shape. 18. A roof truss apex device, comprising: a roof apex collar comprising: a top member including a top surface comprising a substantially convex surface;a bottom member;a locking mechanism to couple the top member to the bottom member to form an opening in the collar, wherein the opening is configured for receiving a truss member;a first elongated arm with a proximal end coupled to the bottom member of the collar; anda second elongated arm with a proximal end coupled to the bottom member of the collar, wherein the first and second arms are transverse in relation to one another and slope downwardly away from the collar;wherein the device is configured for engaging two truss segments sloping downwards away from the collar;wherein the opening is shaped to accommodate a profile of the truss member; andwherein the locking mechanism comprises a hinge that couples the top member to the bottom member of the collar to engage and maintain in place the truss member within the opening. 19. The roof truss apex device of claim 18, further comprising: an elongated crossbar transversely coupled to the first arm and the second arm. 20. The roof truss apex device of claim 19, further comprising: a first hollow connecting member coupled to a distal end of the first arm; anda second hollow connecting member coupled to a distal end of the second arm;wherein the first and second connecting members are configured for receiving and engaging an I-beam truss segment. 21. The roof truss apex device of claim 18, wherein the locking mechanism further comprises at least one bolt that couples the top member to the bottom member of the collar to engage and maintain in place the truss member within the opening. 22. The roof truss apex device of claim 21, wherein: the top member comprises at least one countersunk hole capable of receiving the bolt; andthe bottom member comprises at least one countersunk hole configured for receiving the bolt, and residing in a plane both parallel to and directly below the countersunk hole of the top member. 23. The roof truss apex device of claim 22, wherein the bolt is countersunk within the top member, remaining flush with the top member when coupling the top member to the bottom member.
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Schleck Herman A. (Lamar Tower ; Suite 2108 ; 2929 Buffalo Speedway Houston TX 77098), Adjustable modular building.
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