Modular structure
A structure includes a hub and a plurality of elongated substantially rigid support members, each rigid support member having a distal end and a proximal end, the proximal end configured to contact an outer surface of the hub. The structure further includes a plurality of elongated substantially flexible support members, each flexible support member configured to couple at least the distal ends of two of the rigid support members. The flexible support members are in tension and the rigid support members are in compression to maintain the structure at equilibrium. A plurality of structures can be assembled and joined to form various modular structures.
The present application relates to support structures, and more particularly to a modular structure.
BACKGROUNDSupport structures that are used in a variety of applications may be constructed as trusses in order to provide weight and material savings while providing high load carrying capability. Trusses can be used in a variety of support functions, such as support beams in construction of buildings, beams for construction of a bridge, and even small support structures of various equipment and machinery.
Trusses typically include a number of joints and a number of truss elements that are interconnected to distribute the loads that any element or joint may experience. Each element is attached to a joint at one or both ends. The joints distribute the loads between the elements that are attached thereto. Each element has a predetermined length and is typically attached to a joint at a predetermined angle. Each of the elements may be in tension or in compression depending on the configuration of the truss and the configuration of the element in the truss. If an element is in compression, it must be rigid. However, if an element is in tension, it may be constructed from a flexible member such as a cable that is capable of carrying the tension load.
Furniture support structures have been constructed in truss-like configurations. For example, a table support structure can be constructed with a number of joints and interconnected rigid elements that can support a table top. However, such structures typically consist of a number of rigid beams that are either fastened together or permanently attached together by welding or bonding. Accordingly, each support structure has to be pre-designed and manufactured in a particular shape to serve a particular function. In such designs, the joint may have receiving apertures at predetermined positions thereon for receiving the truss members. Therefore, even though the truss elements may be identical, the joints have to be designed based on the particular position and orientation of the joint in the truss structure. Furthermore, once such truss-structures are assembled, the tension and compression in the elements cannot be adjusted. Accordingly, every aspect of the truss structure, including the dimensions, material properties, orientation of joints and the truss elements, and the load distribution properties of the truss have to be pre-designed for a particular function prior to assembly or construction.
Therefore, there is a need in the art for a truss structure that can be used in a variety of load support functions, including use as furniture support structure, where the same common parts can be used to simply construct an adjustable support structure for any desired function.
BRIEF DESCRIPTION OF THE DRAWINGSCertain embodiments are shown in the drawings. However, it is understood that the present disclosure is not limited to the arrangements and instrumentality shown in the attached drawings, wherein:
For the purposes of promoting and understanding the principles disclosed herein, reference will now be made to the preferred embodiments illustrated in the drawings and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope is thereby intended. Such alterations and further modifications in the illustrated device and such further applications are the principles disclosed as illustrated therein as being contemplated as would normally occur to one skilled in the art to which this disclosure relates.
In one principal aspect of the present disclosure, a structure includes a hub and a plurality of elongated substantially rigid support members, each rigid support member having a distal end and a proximal end, the proximal end configured to contact an outer surface of the hub. The structure further includes a plurality of elongated substantially flexible support members, each flexible support member configured to couple at least the distal ends of two of the rigid support members. The flexible support members are in tension and the rigid support members are in compression to maintain the structure at equilibrium.
In another principal aspect of the present disclosure, a modular structure includes a plurality of modules. Each module includes a hub and a plurality of elongated substantially rigid support members, each rigid support member having a distal end and a proximal end, the proximal end configured to contact an outer surface of the hub. Each module further includes a plurality of elongated substantially flexible support members, each flexible support member configured to couple at least the distal ends of two of the rigid support members. The flexible support members of each module are in tension and the rigid support members of each module are in compression to maintain the modules at equilibrium. Additionally, each module is coupled to an adjacent module.
In another principal aspect of the present disclosure, a modular structure includes a plurality of modules. Each module includes a spherical hub and a plurality of rigid tubes, each tube having a distal end and a proximal end, the proximal end being in contact with an outer surface of the hub. Each module further includes a plurality of cables, each cable connected to the proximal ends of two adjacent tubes. The adjacent modules share a tube to define a shared tube between each of the adjacent modules, wherein the proximal end of the shared tube is in contact with the hub of one of the adjacent modules and the distal end of the shared tube is in contact with the hub of the other adjacent module. Additionally, the cables of each module are in tension to maintain the proximal ends of the tubes in contact with the outer surface of the corresponding hubs. The proximal end of each shared tube is connected by a cable to the distal ends of the tubes of the adjacent module.
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A mechanism by which the length of at least one the rigid support members 24 can be adjusted is shown in detail in
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The octahedral structure 100 can serve as a table support structure by placing the lower end caps 102 of the octahedron on the ground and placing a table top (not shown) on the upper end caps 104 of the octahedral structure 100. The octahedral structure 100 is another example of many possible structures that can be constructed in accordance with the teachings of the present disclosure. For example, various geometric structures, such as dodecahedral and icosahedral structures can be constructed in accordance with the teachings of the present disclosure. The octahedral structure 100 or any other geometric structure constructed in accordance with the teachings of the present disclosure can be joined to a number of other adjacent octahedral structures 100 so as to form a truss structure. The truss structure (not shown) can serve as a support beam for any type of structure or even a bridge. Additionally, the plurality of joined octahedral structures 100 or other geometric structures constructed in accordance with the teachings of the present disclosure can be sandwiched by a lower layer and an upper layer (not shown) so as to provide a sandwich support structure for example, such sandwich support structures can be used as walls, floors or ceilings in buildings.
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The rigid support members can be constructed from rods or tubes. The rigid support members 24 can also be constructed from any material that provides a substantial amount of rigidity. One of ordinary skill in the art will appreciate that all materials have a degree of inherent flexibility. However, the rigid support members 24 should provide enough rigidity so as to be able to be placed in compression to place the structures disclosed here in equilibrium and to function as support structures as described herein. The flexible support members 26 can be wires, cables or stamped sheet metal. Additionally, the flexible support members 26 that are positioned in one plane or face of a geometric structure that is constructed in accordance with the teachings of the present disclosure can be replaced by a piece of fabric. The fabric will be attached to the rigid support members 24 and may be in tension to provide the function of the flexible support members 26. The flexible support members 26 can be constructed from any material so as to provide substantial flexibility while providing the structural support as described herein when placed in tension.
Furthermore, while the particular preferred embodiments have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from the teaching of the disclosure. The matter set forth in the foregoing description and accompanying drawings is offered by way of illustration only and not as limitation. The actual scope of the disclosure is intended to be defined in the following claims when viewed in their proper perspective based on the related art.
Claims
1. A structure comprising:
- a hub;
- a plurality of elongated substantially rigid support members, each rigid support member having a distal end and a proximal end, the proximal end configured to contact an outer surface of the hub;
- a plurality of elongated substantially flexible support members, each flexible support member configured to couple at least the distal ends of two of the rigid support members; and
- wherein the flexible support members are in tension and the rigid support members are in compression to maintain the structure at equilibrium.
2. The structure of claim 1, wherein a length of at least one of the rigid support members is adjustable to maintain the structure at equilibrium.
3. The structure of claim 1, wherein lengths of the flexible support members are adjustable to maintain the structure at equilibrium.
4. The structure of claim 1, wherein a size of the hub is adjustable to maintain the structure at equilibrium.
5. The structure of claim 1, wherein the rigid support members are any one of rods and tubes.
6. The structure of claim 1, wherein the flexible support members are any one of wired, cables and stamped sheet metal.
7. The structure of claim 1, wherein the flexible support members in a plane are defined by a fabric covering the plane and being coupled to the corresponding rigid support members.
8. The structure of claim 1, wherein the hub is a sphere.
9. The structure of claim 1, wherein the hub, the rigid support members and the flexible support members define a furniture support structure.
10. A modular structure comprising:
- a plurality of modules, each module comprising: a hub; a plurality of elongated substantially rigid support members, each rigid support member having a distal end and a proximal end, the proximal end configured to contact an outer surface of the hub; and a plurality of elongated substantially flexible support members, each flexible support member configured to couple at least the distal ends of two of the rigid support members;
- wherein the flexible support members of each module are in tension and the rigid support members of each module are in compression to maintain the modules at equilibrium; and
- wherein each module is coupled to an adjacent module.
11. The modular structure of claim 9, wherein the hubs of adjacent modules contact a shared one of the substantially rigid support members.
12. The modular structure of claim 9, wherein the distal end of one of the rigid support members of each module is connected to one of the flexible support members of the adjacent module.
13. The modular structure of claim 9, wherein a length of at least one of the rigid support members of each module is adjustable to maintain the modules at equilibrium.
14. The modular structure of claim 9, wherein lengths of the flexible support members of each module are adjustable to maintain the modules at equilibrium.
15. The modular structure of claim 9, wherein a size of each hub of each module is adjustable to maintain the modules at equilibrium.
16. The modular structure of claim 9, wherein the rigid support members are any one of rods and tubes.
17. The modular structure of claim 9, wherein the flexible support members are any one of wires, cables and stamped sheet metal.
18. The modular structure of claim 9, wherein the flexible support members in a plane are defined by a fabric covering the plane and being coupled to the corresponding rigid support members
19. The modular structure of claim 9, wherein each hub is a sphere.
20. The modular structure of claim 9, further comprising a planar upper support surface, wherein the planar upper support surface is placed on the plurality of modules and supported by the plurality of modules.
21. The modular structure of claim 20, further comprising a planar lower support surface, wherein the planar lower support surface is placed under the plurality of modules to define to support the plurality of modules, and wherein the upper support surface, the plurality of modules and the lower support surface define a sandwich support structure.
22. The modular structure of claim 9, wherein the plurality of modules define a furniture support structure.
23. A modular structure comprising:
- a plurality of modules, each module comprising: a spherical hub; a plurality of rigid tubes, each tube having a distal end and a proximal end, the proximal end being in contact with an outer surface of the hub; and a plurality of cables, each cable connected to the proximal ends of two adjacent tubes;
- wherein adjacent modules share a tube to define a shared tube between each of the adjacent modules, wherein the proximal end of the shared tube is in contact with the hub of one of the adjacent modules and the distal end of the shared tube is in contact with the hub of the other adjacent module; and
- wherein the cables of each module are in tension to maintain the proximal ends of the tubes in contact with the outer surface of the corresponding hubs; and
- wherein the proximal end of each shared tube is connected by a cable to the distal ends of the tubes of the adjacent module.
24. The modular structure of claim 23, wherein a length of at least one of the tubes of each module is adjustable to maintain the tension in the cables of each module.
25. The modular structure of claim 23, wherein lengths of the cables of each module are adjustable to maintain the tension in the cables.
26. The modular structure of claim 23, wherein a size of each hub of each module is adjustable to maintain the tension in the cables.
27. The modular structure of claim 23, further comprising planar support surface, wherein the planar support surface is placed on the plurality of modules and supported by the plurality of modules to provide a table top, wherein the plurality of modules and the planar support surface define a table.
28. The modular structure of claim 23, wherein the plurality of modules define a furniture support structure.
Type: Application
Filed: May 12, 2005
Publication Date: Dec 7, 2006
Inventor: Charles Trott (Libertyville, IL)
Application Number: 11/127,555
International Classification: E04H 12/00 (20060101);