The disclosed invention relates to structural members and support structures. Optionally, the disclosed structural members and support structures can be used to construct at least a portion of a structural design, such as a building.
Structural members, such as beams, braces, tubes, rods, and columns, can be used as constituents of a structure's frame. The amount of material used in each structural member can reduce the cost of said structural member, but material reduction typically corresponds with a reduction in strength. Accordingly, a strong, inexpensive alternative can be desirable.
Structural members can be attached end-to-end to create columns and frames of structures. Accordingly, it can be desirable to facilitate alignment and coupling between adjacent structural members.
Described herein, in various aspects, is a structural member assembly extending in a longitudinal dimension. The structural member assembly can comprise a first channel member having a first longitudinal end and an opposed second longitudinal end. The first channel member can have a length in the longitudinal dimension and define an inner channel extending along the length. A second channel member can having a first longitudinal end and an opposed second longitudinal end. The second channel member can have a length in the longitudinal dimension and define an inner channel extending along the length. An inner member can have a first longitudinal end and an opposed second longitudinal end. The inner member can have a length in the longitudinal dimension. The first and second channel members can be positioned with respect to each other so that the inner channels of the first and second channel members cooperate to define an interior passage extending in the longitudinal dimension. The inner member can extend through at least a portion of the interior passage and attach to at least one of the first channel member and the second channel member. At least one of the first and second longitudinal ends of the inner member can be longitudinally spaced from a respective longitudinal end of the first channel member and a respective longitudinal end of the second channel member. The length of the inner member can be greater than half of the length of the first channel member and greater than half of the length of the second channel member.
Each of the first channel member, the second channel member, and the center member can comprise light gauge steel.
Each of the first channel member and the second channel member, in a cross sectional plane perpendicular to the longitudinal dimension, can comprise a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall, and a second side wall extending from the second end of the base wall. The base wall, the first side wall, and the second side wall can cooperate to define the inner channel. The first and second channel members can be positioned with respect to each other so that the inner surface of the base wall of the first channel member opposes the inner surface of the base wall of the second channel member.
Each of the first channel member and the second channel member, in the cross sectional plane, can further comprise a first flange extending from a first end of the first side wall that is opposite the base wall and in a direction toward the second side wall and a second flange extending from a first end of the second side wall that is opposite the base wall and in a direction toward the first side wall.
Each of the first channel member, the second channel member, and the center member, in the cross sectional plane, can have the same shape.
The length of the first channel member and the length of the second channel member can be substantially equal.
At least one of the first and second longitudinal ends of the inner member can be longitudinally spaced from the respective longitudinal end of the first channel member and the respective longitudinal end of the second channel member by at least twelve inches.
The length of the inner member can be greater than the length of the first channel member and greater than the length of the second channel member.
The inner member can comprise a first portion and a second portion. The first portion of the inner member can be arranged end-to-end with the second portion of the inner member, and the first portion and the second portion can be discrete components.
The length of the inner member can be less than the length of the first channel member and less than the length of the second channel member.
The inner member can extend from a wall of the first member to an opposing wall of the second member.
The inner member can comprise a first parallel wall, a second parallel wall, and a web extending between the first and second parallel walls. The first wall of the inner member can abut and attach to the wall of the first member, and the second parallel wall of the inner member can abut the opposing wall of the second member.
The structural member can be a constituent of a multi-story storage structure.
A support column can extend in a longitudinal dimension and comprise a plurality of outer hollow longitudinal structures, each longitudinal structure having a first longitudinal end and an opposing second longitudinal end, and each longitudinal structure having a length in the longitudinal dimension and defining an interior passage extending along the length. The support column can further comprise a plurality of inner members, each inner member having a first longitudinal end and an opposed second longitudinal end and having a length in the longitudinal dimension. The plurality of outer hollow longitudinal structures can be aligned end-to-end along a single axis. Respective longitudinal ends of each of the outer hollow longitudinal structures can be coupled to respective longitudinal ends of each adjacent outer hollow longitudinal structure. The interior passages of the plurality of outer hollow longitudinal structures can cooperate to define an interior passage of the support column. The plurality of inner members can be aligned end-to-end along the single axis within the interior passage of the support column so that the first and second longitudinal ends of each of the inner members extend to respective longitudinal ends of each adjacent inner member. At least one end of at least one inner member can be longitudinally offset from every longitudinal end of the plurality of outer hollow longitudinal structures.
Each outer hollow longitudinal structure can comprise a first channel member having a first longitudinal end and an opposed second longitudinal end, wherein the first channel member has a length in the longitudinal dimension and defines an inner channel extending along the length, and a second channel member having a first longitudinal end and an opposed second longitudinal end, wherein the second channel member has a length in the longitudinal dimension and defines an inner channel extending along the length. Each of the first channel member and the second channel member, in a cross sectional plane perpendicular to the longitudinal dimension, can comprise a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall, and a second side wall extending from the second end of the base wall, wherein the base wall, the first side wall, and the second side wall cooperate to define the inner channel, wherein the first and second channel members are positioned with respect to each other so that the inner surface of the base wall of the first channel member opposes the inner surface of the base wall of second channel member, and so that the inner channels of the first and second channel members cooperate to define the interior passage extending in the longitudinal dimension.
Each inner member can extend from a wall of the first channel member of at least one outer hollow longitudinal structure to an opposing wall of the respective second channel member of the at least one outer hollow longitudinal structure.
Each of the inner members can comprise a first parallel wall, a second parallel wall, and a web extending between the first and second parallel walls. The first wall of the inner member can abut and attach to the wall of the first channel member of the at least one outer hollow longitudinal structure. The second parallel wall of the inner member can abut the opposing wall of the respective second channel member of the at least one outer hollow longitudinal structure.
Each of the first channel member, the second channel member, and the center member can comprise light gauge steel.
A structural assembly extending in a longitudinal dimension can comprise a first channel member, having a first longitudinal end and an opposed second longitudinal end, wherein the first channel member has a length in the longitudinal dimension and defines an inner channel extending along the length. The structural assembly can further comprise a second channel member having a first longitudinal end and an opposed second longitudinal end, wherein the second channel member has a length in the longitudinal dimension and defines an inner channel extending along the length. The structural assembly can still further comprise an inner member having a first longitudinal end and an opposed second longitudinal end, wherein the inner member has a length in the longitudinal dimension. The first and second channel members can be positioned with respect to each other so that the inner channels of the first and second channel members cooperate to define an interior passage extending in the longitudinal dimension. The inner member can extends through at least a portion of the interior passage and attach to at least one of the first channel member and the second channel member. At least one of the first and second longitudinal ends of the inner member can extend beyond a respective longitudinal end of the first channel member and a respective longitudinal end of the second channel member in a first direction. The first direction can extend toward the respective longitudinal end of the first channel member from the opposing longitudinal end of the first channel member.
Each outer hollow longitudinal structure can have the same cross sectional profile.
Each outer hollow longitudinal structure can comprise structural tubing.
A method can comprise coupling a first channel member to a first inner member and a second channel member to the first inner member, wherein the first channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the first channel member defines an inner channel extending along the length, wherein the second channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the second channel member defines an inner channel extending along the length, so that the inner channel of the first channel member and the inner channel of the second channel member oppose each other and cooperate to define a first interior passage therein and so that the first end of the first inner member defines a protruding portion that extends beyond the first end of the first channel member and the first end of the second channel member; coupling a third channel member and a fourth channel member to the protruding portion of the first inner member, wherein the third channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the third channel member defines an inner channel extending along the length, wherein the fourth channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the fourth channel member defines an inner channel extending along the length, so that the inner channel of the third channel member and the inner channel of the fourth channel member oppose each other and cooperate to define a second interior passage therein; coupling a second inner member to the third channel member and the fourth channel member so that the first inner member and the second inner member cooperate to define an inner member assembly that extends through an entire longitudinal length of the second interior passage.
Each of the first channel member, the second channel member, the third channel member, the fourth channel member, the first center member, and the second center member can comprise light gauge steel.
Each of the first channel member, the second channel member, the third channel member, the fourth channel member, in a respective cross sectional plane perpendicular to the longitudinal dimension, can comprise a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall in a respective direction that is perpendicular to the base wall, a second side wall extending from the second end of the base wall in the respective direction that is perpendicular to the base wall.
Each of the first channel member the second channel member, the third channel member, and the fourth channel member, in the respective cross sectional plane, can further comprise a first flange extending from a first end of the first side wall that is opposite the base wall and in a direction toward the second side wall and a second flange extending from a first end of the second side wall that is opposite the base wall and in a direction toward the first side wall.
Additional advantages of the invention will be set forth in part in the description that follows, and in part will be obvious from the description, or may be learned by practice of the invention. The advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the appended claims. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.
These and other features of the preferred embodiments of the invention will become more apparent in the detailed description in which reference is made to the appended drawings wherein:
The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention, are shown. Indeed, this invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will satisfy applicable legal requirements. Like numbers refer to like elements throughout. It is to be understood that this invention is not limited to the particular methodology and protocols described, as such may vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to limit the scope of the present invention.
Many modifications and other embodiments of the invention set forth herein will come to mind to one skilled in the art to which the invention pertains having the benefit of the teachings presented in the foregoing description and the associated drawings. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
As used herein the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise. For example, use of the term “a flange” can refer to one or more of such flanges, and so forth.
All technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs unless clearly indicated otherwise.
As used herein, the terms “optional” or “optionally” mean that the subsequently described event or circumstance may or may not occur, and that the description includes instances where said event or circumstance occurs and instances where it does not.
As used herein, the term “at least one of” is intended to be synonymous with “one or more of” For example, “at least one of A, B and C” explicitly includes only A, only B, only C, and combinations of each.
The word “or” as used herein means any one member of a particular list and also includes any combination of members of that list.
Ranges can be expressed herein as from “about” one particular value, and/or to “about” another particular value. When such a range is expressed, another aspect includes from the one particular value and/or to the other particular value. Similarly, when values are expressed as approximations, by use of the antecedent “about,” it will be understood that the particular value forms another aspect. It will be further understood that the endpoints of each of the ranges are significant both in relation to the other endpoint, and independently of the other endpoint. Optionally, in some aspects, when values are approximated by use of the antecedent “about,” it is contemplated that values within up to 15%, up to 10%, up to 5%, or up to 1% (above or below) of the particularly stated value can be included within the scope of those aspects. Similarly, when values are approximated by the use of the antecedent “approximately” or “substantially,” it is contemplated that values within up to 15%, up to 10%, up to 5%, or up to 1% (above or below) of the particularly stated value can be included within the scope of those aspects.
It should be understood that references herein to “top,” “bottom,” “above”, and “below” should be understood to be descriptive with respect to components' orientations as shown the Figures. Such references should not be understood to limit the orientations of the components to the embodiments shown. For example, the structural member assemblies can be inverted so that the “top” and “bottom” ends are reversed. Similarly, in various embodiments, the structural member assemblies and support columns can extend horizontally or at any other angle with respect to the ground.
It is to be understood that unless otherwise expressly stated, it is in no way intended that any method set forth herein be construed as requiring that its steps be performed in a specific order. Accordingly, where a method claim does not actually recite an order to be followed by its steps or it is not otherwise specifically stated in the claims or descriptions that the steps are to be limited to a specific order, it is in no way intended that an order be inferred, in any respect. This holds for any possible non-express basis for interpretation, including: matters of logic with respect to arrangement of steps or operational flow; plain meaning derived from grammatical organization or punctuation; and the number or type of aspects described in the specification.
The following description supplies specific details in order to provide a thorough understanding. Nevertheless, the skilled artisan would understand that the apparatus, system, and associated methods of using the apparatus can be implemented and used without employing these specific details. Indeed, the apparatus, system, and associated methods can be placed into practice by modifying the illustrated apparatus, system, and associated methods and can be used in conjunction with any other apparatus and techniques conventionally used in the industry.
Disclosed herein, in various aspects and with reference to
The following illustrated cross sections are not drawn to scale and are provided to generally describe cross sectional shapes. The cross sections can be described with reference to a first transverse dimension 144 and a second transverse dimension 145 that is perpendicular to the first transverse dimension.
First Embodiment of Outer Channel Members
Referring to
The first and second channels 102A, 102B can be disposed so that the inner surfaces of their respective base walls 106A, 106B oppose each other. The first channel 102A and the second channel 102B can be positioned so that their respective channels 120A, 120B cooperate to define an interior passage 142. According to at least one embodiment, as shown in
Second Embodiment of Outer Channel Members
Referring to
The first and second outer channel members 202A, 202B can be disposed so that the respective inner surfaces of the base walls and side walls can cooperate to define the respective channels 220A, 220B. The first side walls 208A, 208B can have ends 231A, 231B opposite the respective base wall 206A, 206B, and the second side walls 210A, 210B can have ends 233A, 233B opposite the respective base wall 206A, 206B. As shown in
Structural Member Assemblies and Support Columns Formed from Same
Referring to
Although the inner member is shown as a channel having a C-shaped profile or a U-shaped profile in the Figures, it should be understood that the inner member can have various other profiles, such as, for example, that of an I-beam, Z-channel, track, threaded rod with mounting plates, cold formed tube steel, or hollow structural tube. Accordingly, although references herein are made specifically to the inner member 104, it should be understood that a U-shaped inner channel member 204, as shown in
Referring to
Offsetting the end(s) can be accomplished, in some embodiments, by providing an inner member having a length that is greater than or less than the lengths of the first and second outer channel members 102A, 102B. In some embodiments, the inner member 104 can have a length 105 that is greater than half of the length 103A of the first outer channel member 102A and the length 103B of the second outer channel member 102B. The length 103A of the first outer channel member 102A can preferably be equal to the length 103B of the second outer channel member 102B, and respective longitudinal ends of the first and second outer channel members 102A, 102B can preferably be aligned. (It should be understood that respective ends of a member in relation to another member of the same structural member assembly can refer to ends on the same longitudinal end of each channel member. For example, the first end 160A of the first outer channel member 102A and the first end 160B of the second outer channel member 102B can be the “respective” ends with respect to the first end 164 of the inner member 104.) However, in optional embodiments, the length 103A of the first outer channel member 102A can be greater than or less than the length 103B of the second outer channel member 102B.
In providing at least one offset between at least one longitudinal end of the inner member and the respective longitudinal ends of the outer channel members, portions of adjacent structural member assemblies 100 can be nested, as disclosed herein. In this way, the plurality of structural member assemblies 100 can easily and efficiently be stacked end-to-end. For example, referring to
Although the steps disclosed herein refer to empty portions of interior passages receiving inner members, it should be understood that, in embodiments consistent with this disclosure, adjacent pairs of inner members can be positioned end-to-end, and the outer channel members can then be positioned around the adjacent pair of inner members and coupled via fasteners to the pair of inner members. Accordingly, stacking of structural member assemblies 100, as disclosed herein, should be understood to describe the arrangement of the coupled structure, rather than the order in which the components are coupled. As disclosed herein, “respective longitudinal ends” of adjacent structures/members should be understood to include opposing ends of adjacent structures/members. For example, referring to
The method of alternatingly attaching outer channel members of one structural member assembly to inner channel members of adjacent structural member assemblies can be repeated to create support columns of various lengths. In some embodiments, support columns 300 may comprise, two, three, four, five, or more structural member assemblies 100. Because the inner members are shorter than the outer channel members, an additional inner member 310 can extend through an empty portion 322″ of an interior passage 142″ of the structural member assembly 100″ so that the collective length 312 of the inner members 104, 104″, 104′″ and the additional inner member 310 is substantially equal to the collective length 316 of the stacked outer channel members. According to some aspects, the ends of structural member assemblies 100 can directly abut respective adjacent structural member assemblies. However, it should be understood that this disclosure include support columns having some longitudinal spacing (e.g., less than one inch, less than two inches, or less than four inches) between adjacent structural member assemblies, or between components of adjacent structural member assemblies. Moreover, it should be understood that structural member assembly components that are separated by spacing components (e.g., spaced by the thickness of the coupling plates 650 or the thickness of the alignment plate 600) should fall within aspects of this disclosure. For example, it should be understood that adjacent ends of adjacent center members 140 that “extend to” each other can include ends of adjacent center members that engage the same alignment plate 600. Moreover, it is contemplated that center members that are spaced from adjacent center members can optionally “extend to” each other if they are longitudinally spaced by no more than one inch, by no more than two inches, or by no more than four inches. Similarly, members that are aligned “end-to-end” should be understood to include members that are abutting each other, spaced by a spacing component such as a coupling plate 650 or an alignment plate 600, or longitudinally spaced by no more than one inch, by no more than two inches, or by no more than four inches.
It should be understood that each inner member need not have the same length as the other inner members in a support column. For example, referring to
In further embodiments, at least one inner member can be longer than its respective first and second outer channel members. For example, referring to
Optionally, with reference to
Referring to
The alignment bracket 600 can have a depending flange 610 that extends downward and generally perpendicularly to the rectangular profile of the alignment bracket. The depending flange 610 can be disposed adjacent a base wall 170 of the inner member 104, and the pair can be coupled with fasteners 150. In this way, the top end of the inner member 104 can be positioned within the interior passage 142.
The alignment bracket 600 can have a circumferential upwardly extending projection 620 that defines a gap 622 on each side for receiving the inner member 104′ therein. For example, the circumferential upwardly extending projection 620 can comprise first edges 624 and second edges 226 that extend in the longitudinal dimension 101 and are spaced from each other in the second transverse dimension 145. The first edge 624 can define a first stop to constrain a back surface (e.g., an outer surface of the base wall 170 (
Although the disclosure refers to the inner member 104 as a unitary body, it should be understood that, in some embodiments, the inner member 104 can comprise a plurality of coupled components. For example, referring to
Referring to
Although the structural member assemblies are described herein as comprising first and second outer channel members, in various aspects, a structural member 100 can comprise an outer structural tubing member (i.e., hollow structural sections, or “HSS”) and an inner member. Referring to
Structural member assemblies 100 and support columns 300, as discussed herein, can provide various improvements over known structural members. According to one aspect, the structural member assemblies 100 can be made partially or entirely of light gauge steel, thereby providing structural support at a low weight and cost. Moreover, the ends of the inner members that are offset from the ends of the outer channel members enable the structural member assemblies 100 to be nested so that adjacent structural member assemblies can easily be stacked to create support columns 300. Additionally, the inner members 104 of the support columns 300 not only provide surface for coupling adjacent structural member assemblies 100; the inner members 104 can provide structural support to the support columns 300. According to some aspects, a plurality of inner members 104 can cooperate to define an inner support that extends along an entire length, or substantially an entire length, of the support column 300. That is, the center supports 104 can provide both surfaces for easy attachment of adjacent structural member assemblies and structural support along the entire length of the support column. Because the structural member assemblies 100 can be stacked as disclosed, the cross sectional profiles of respective structural assemblies, in planes perpendicular to the longitudinal dimension, can be the same. Accordingly, disclosed embodiments can be distinguished from conventional assemblies that employ nested members having sequentially smaller cross sections. Optionally, the columns 300 can be used in multi-level construction, such as for multi-level storage structure buildings. The disclosed structural members can have improved load carrying capacity and strength over conventional structural members. Further, the disclosed columns having structural members with offset ends can have greater shear strength than conventional systems. For example, in conventional multi-level storage structure buildings, structural columns have longitudinal ends that terminate at each floor, wherein adjacent columns are coupled at adjoining ends to create unions having weak shear strength. In contrast, the disclosed embodiments can create a single continuous structural column that does not have unions with weak shear strength. Improved shear strength can be particularly critical for providing stability in seismic or earthquake zones.
Exemplary Aspects
In view of the described products, systems, and methods and variations thereof, herein below are described certain more particularly described aspects of the invention. These particularly recited aspects should not however be interpreted to have any limiting effect on any different claims containing different or more general teachings described herein, or that the “particular” aspects are somehow limited in some way other than the inherent meanings of the language literally used therein.
Aspect 1: A structural member assembly extending in a longitudinal dimension, the structural member assembly comprising: a first channel member having a first longitudinal end and an opposed second longitudinal end, wherein the first channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; a second channel member having a first longitudinal end and an opposed second longitudinal end, wherein the second channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; and an inner member having a first longitudinal end and an opposed second longitudinal end, wherein the inner member has a length in the longitudinal dimension, wherein the first and second channel members are positioned with respect to each other so that the inner channels of the first and second channel members cooperate to define an interior passage extending in the longitudinal dimension, wherein the inner member extends through at least a portion of the interior passage and is attached to at least one of the first channel member and the second channel member, wherein at least one of the first and second longitudinal ends of the inner member is longitudinally spaced from a respective longitudinal end of the first channel member and a respective longitudinal end of the second channel member, wherein the length of the inner member is greater than half of the length of the first channel member and greater than half of the length of the second channel member.
Aspect 2: The structural member assembly of aspect 1, wherein each of the first channel member, the second channel member, and the center member comprises light gauge steel.
Aspect 3: The structural member assembly of aspect 1, wherein each of the first channel member and the second channel member, in a cross sectional plane perpendicular to the longitudinal dimension, comprises a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall, a second side wall extending from the second end of the base wall, wherein the base wall, the first side wall, and the second side wall cooperate to define the inner channel, and wherein the first and second channel members are positioned with respect to each other so that the inner surface of the base wall of the first channel member opposes the inner surface of the base wall of the second channel member.
Aspect 4: The structural member assembly of aspect 3, wherein each of the first channel member and the second channel member, in the cross sectional plane, further comprises: a first flange extending from a first end of the first side wall that is opposite the base wall and in a direction toward the second side wall; and a second flange extending from a first end of the second side wall that is opposite the base wall and in a direction toward the first side wall.
Aspect 5: The structural member assembly of any of the previous aspects, wherein each of the first channel member, the second channel member, and the center member, in the cross sectional plane, have the same shape.
Aspect 6: The structural member assembly of assembly of any of the previous aspects, wherein the length of the first channel member and the length of the second channel member are substantially equal.
Aspect 7: The structural member assembly of any of the previous aspects, wherein said at least one of the first and second longitudinal ends of the inner member is longitudinally spaced from the respective longitudinal end of the first channel member and the respective longitudinal end of the second channel member by at least twelve inches.
Aspect 8: The structural member assembly of any of the previous aspects, wherein the length of the inner member is greater than the length of the first channel member and greater than the length of the second channel member.
Aspect 9: The structural member assembly of aspect 8, wherein the inner member comprises a first portion and a second portion, wherein the first portion of the inner member is arranged end-to-end with the second portion of the inner member, wherein the first portion and the second portion are discrete components.
Aspect 10: The structural member assembly of any of aspects 1-7, wherein the length of the inner member is less than the length of the first channel member and less than the length of the second channel member.
Aspect 11: The structural member assembly of any of the previous aspects, wherein the inner member extends from a wall of the first member to an opposing wall of the second member.
Aspect 12: The structural member assembly of aspect 11, wherein the inner member comprises a first parallel wall, a second parallel wall, and a web extending between the first and second parallel walls, wherein the first wall of the inner member abuts and attaches to the wall of the first member, and the second parallel wall of the inner member abuts the opposing wall of the second member.
Aspect 13: The structural member assembly of any of the previous aspects, wherein the structural member is a constituent of a multi-story storage structure.
Aspect 14: A support column extending in a longitudinal dimension, the support column comprising: a plurality of outer hollow longitudinal structures, each longitudinal structure having a first longitudinal end and an opposing second longitudinal end, and each longitudinal structure having a length in the longitudinal dimension and defining an interior passage extending along the length; and a plurality of inner members, each inner member having a first longitudinal end and an opposed second longitudinal end and having a length in the longitudinal dimension, wherein the plurality of outer hollow longitudinal structures are aligned end-to-end along a single axis, wherein respective longitudinal ends of each of the outer hollow longitudinal structures are coupled to respective longitudinal ends of each adjacent outer hollow longitudinal structure, wherein the interior passages of the plurality of outer hollow longitudinal structures cooperate to define an interior passage of the support column, wherein the plurality of inner members are aligned end-to-end along the single axis within the interior passage of the support column so that the first and second longitudinal ends of each of the inner members extend to respective longitudinal ends of each adjacent inner member, wherein at least one end of at least one inner member is longitudinally offset from every longitudinal end of the plurality of outer hollow longitudinal structures.
Aspect 15: The support column of aspect 14, wherein each outer hollow longitudinal structure comprises: a first channel member having a first longitudinal end and an opposed second longitudinal end, wherein the first channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; and a second channel member having a first longitudinal end and an opposed second longitudinal end, wherein the second channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; and wherein each of the first channel member and the second channel member, in a cross sectional plane perpendicular to the longitudinal dimension, comprises a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall, a second side wall extending from the second end of the base wall, wherein the base wall, the first side wall, and the second side wall cooperate to define the inner channel, wherein the first and second channel members are positioned with respect to each other so that the inner surface of the base wall of the first channel member opposes the inner surface of the base wall of second channel member, and so that the inner channels of the first and second channel members cooperate to define the interior passage extending in the longitudinal dimension.
Aspect 16: The structural member assembly of aspect 15, wherein each inner member extends from a wall of the first channel member of at least one outer hollow longitudinal structure to an opposing wall of the respective second channel member of the at least one outer hollow longitudinal structure.
Aspect 17: The structural member assembly of aspect 16, wherein each of the inner members comprises a first parallel wall, a second parallel wall, and a web extending between the first and second parallel walls, wherein the first wall of the inner member abuts and attaches to the wall of the first channel member of the at least one outer hollow longitudinal structure, and the second parallel wall of the inner member abuts the opposing wall of the respective second channel member of the at least one outer hollow longitudinal structure.
Aspect 18: The structural member assembly of any of aspects 14-17, wherein each of the first channel member, the second channel member, and the center member comprises light gauge steel.
Aspect 19. A structural assembly extending in a longitudinal dimension, the structural assembly comprising: a first channel member, having a first longitudinal end and an opposed second longitudinal end, wherein the first channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; a second channel member having a first longitudinal end and an opposed second longitudinal end, wherein the second channel member has a length in the longitudinal dimension and defines an inner channel extending along the length; and an inner member having a first longitudinal end and an opposed second longitudinal end, wherein the inner member has a length in the longitudinal dimension, wherein the first and second channel members are positioned with respect to each other so that the inner channels of the first and second channel members cooperate to define an interior passage extending in the longitudinal dimension, wherein the inner member extends through at least a portion of the interior passage and is attached to at least one of the first channel member and the second channel member, wherein at least one of the first and second longitudinal ends of the inner member extends beyond a respective longitudinal end of the first channel member and a respective longitudinal end of the second channel member in a first direction, wherein the first direction extends toward the respective longitudinal end of the first channel member from the opposing longitudinal end of the first channel member.
Aspect 20: The structural assembly of aspect 19, wherein each outer hollow longitudinal structure has the same cross sectional profile.
Aspect 21: The structural assembly of aspect 19, wherein each outer hollow longitudinal structure comprises structural tubing.
Aspect 22: A method comprising: coupling a first channel member to a first inner member and a second channel member to the first inner member, wherein the first channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the first channel member defines an inner channel extending along the length, wherein the second channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the second channel member defines an inner channel extending along the length, so that the inner channel of the first channel member and the inner channel of the second channel member oppose each other and cooperate to define a first interior passage therein and so that the first end of the first inner member defines a protruding portion that extends beyond the first end of the first channel member and the first end of the second channel member; coupling a third channel member and a fourth channel member to the protruding portion of the first inner member, wherein the third channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the third channel member defines an inner channel extending along the length, wherein the fourth channel member has a length, a first longitudinal end, and an opposing second longitudinal end, wherein the fourth channel member defines an inner channel extending along the length, so that the inner channel of the third channel member and the inner channel of the fourth channel member oppose each other and cooperate to define a second interior passage therein; coupling a second inner member to the third channel member and the fourth channel member so that the first inner member and the second inner member cooperate to define an inner member assembly that extends through an entire longitudinal length of the second interior passage.
Aspect 23: The method of aspect 22, wherein each of the first channel member, the second channel member, the third channel member, the fourth channel member, the first center member, and the second center member comprises light gauge steel.
Aspect 24: The method of aspect 22 or aspect 23, wherein each of the first channel member, the second channel member, the third channel member, the fourth channel member, in a respective cross sectional plane perpendicular to the longitudinal dimension, comprises a base wall having an inner surface, an outer surface, a first end, and a second end, a first side wall extending from the first end of the base wall in a respective direction that is perpendicular to the base wall, a second side wall extending from the second end of the base wall in the respective direction that is perpendicular to the base wall.
Aspect 25: The method of aspect 24, wherein each of the first channel member the second channel member, the third channel member, and the fourth channel member, in the respective cross sectional plane, further comprises: a first flange extending from a first end of the first side wall that is opposite the base wall and in a direction toward the second side wall; and a second flange extending from a first end of the second side wall that is opposite the base wall and in a direction toward the first side wall.
Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity of understanding, certain changes and modifications may be practiced within the scope of the appended claims.
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