Canopies and canopy support structures

Information

  • Patent Grant
  • 10455912
  • Patent Number
    10,455,912
  • Date Filed
    Wednesday, September 17, 2014
    10 years ago
  • Date Issued
    Tuesday, October 29, 2019
    5 years ago
Abstract
A canopy support structure includes a support pole having a track, a three-dimensional array of hub pairs, and a plurality of articulating arms connecting the hub pairs. The track extends in a longitudinal direction along the support pole. The hubs of each hub pair are movable toward/away from each other during extension/retraction of the canopy support structure. A primary hub pair includes a first hub and a second hub, with each of the first hub and the second hub coupled to the support pole. At least one of the first hub and the second hub is slidably engaged with the track and movable along the support pole. The articulating arms include sets of scissor-connected primary articulating arms. Each of the hub pairs is pivotally connected to at least one other of the hub pairs by a respective set of the scissor-connected primary articulating arms.
Description
BACKGROUND

Conventional pole-mounted canopy support structures suffer from an inability to independently configure the structure's height and span. In particular, the structure has to be tall enough that the structure's retractable arms can close without hitting the ground or other objects. Conversely, limits on the practical height of the structure limit the span of the structure's extended arms. These limitations are accentuated in the case of eccentric canopy structures (i.e., structures that have arms extending in a longer direction on one side of the structure's support pole).


SUMMARY OF THE INVENTION

In one embodiment, a canopy support structure includes a support pole having a track therein, thereon, or coupled thereto, a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, and a plurality of articulating arms connecting the hub pairs. The track extends in a longitudinal direction along the support pole. The hubs of each hub pair are movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure. The primary hub pair includes a first hub and a second hub. Each of the first hub and the second hub is coupled to the support pole. At least one of the first hub and the second hub is slidably engaged with the track and movable along the support pole. The articulating arms include sets of scissor-connected primary articulating arms. Each of the hub pairs is pivotally connected to at least one other of the hub pairs by a respective set of the scissor-connected primary articulating arms.


In another embodiment, a canopy support structure includes a track, a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, and a plurality of articulating arms connecting the hub pairs. The track has an orientation perpendicular to an extended configuration of the canopy support structure. The hubs of each hub pair are movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure. The primary hub pair includes a first hub and a second hub. Each of the first hub and the second hub is coupled to the track. At least one of the first hub and the second hub is slidably engaged with the track and movable along the track. The articulating arms include sets of scissor-connected primary articulating arms. Each of the hub pairs is pivotally connected to at least one other of the hub pairs by a respective set of the scissor-connected primary articulating arms.


In another embodiment, a canopy support structure includes a single support pole, a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, and a plurality of articulating arms connecting the hub pairs. The hubs of each hub pair are movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure. The primary hub pair includes a first hub and a second hub. Each of the first hub and the second hub is coupled to the support pole. At least one of the first hub and the second hub is movable along the support pole. The at least two secondary hub pairs include a first secondary hub pair and a second secondary hub pair. Each hub of the first secondary hub pair includes a respective secondary canopy support structure mount. The articulating arms include sets of scissor-connected primary articulating arms. Each of the hub pairs is pivotally connected to at least one other of the hub pairs by a respective set of the scissor-connected primary articulating arms.


Other embodiments of the invention are also disclosed





BRIEF DESCRIPTION OF THE DRAWINGS

Illustrative and presently preferred embodiments of the invention are illustrated in the drawings, in which:



FIGS. 1-6 illustrate a first example of a canopy support structure;



FIG. 7 illustrates an example of a bypass pin connection between two primary articulating arms;



FIG. 8 illustrates a first example of a mechanical connector connection between secondary and tertiary articulating arms;



FIG. 9 illustrates a second example of a mechanical connector connection between secondary and tertiary articulating arms;



FIG. 10 illustrates a double-shear connector used to connect the suspension arms to the suspension hub in the canopy support structure shown in FIGS. 1-6;



FIG. 11 illustrates a first example of a modular primary hub usable in the canopy support structure shown in FIGS. 1-6;



FIG. 12 illustrates two modular components of the modular primary hub shown in FIG. 11;



FIG. 13 illustrates a second example of a modular primary hub usable in the canopy support structure shown in FIGS. 1-6;



FIG. 14 illustrates a first example of a suspension hub usable in the canopy support structure shown in FIGS. 1-6;



FIGS. 15-17 illustrate movement of primary hubs and a suspension hub when mechanical stops are used to limit the movement of the hubs;



FIG. 18 illustrates an alternate modular component usable with other like (or different) modular components to form a suspension hub for the canopy support structure shown in FIGS. 1-6;



FIG. 19 illustrates a second example of a suspension hub;



FIG. 20 illustrates a third example of a suspension hub;



FIG. 21 illustrates an example of a secondary hub usable in the canopy support structure shown in FIGS. 1-6;



FIG. 22 illustrates an example of a mechanism for extending and retracting a canopy support structure;



FIGS. 23 & 24 illustrate a pair of secondary hubs of substantially identical construction, wherein the upper one of the hubs has an optional telescoping mast fitted through a central sleeve of the hub;



FIG. 25 illustrates a second example of a canopy support structure;



FIG. 26 illustrates an elevation of one radial arm of the canopy support structure shown in FIG. 25;



FIGS. 27 & 28 provide exploded views of a bracket used in the FIG. 25 canopy support structure;



FIG. 29 illustrates a top view of a first bracket joining a first set of articulating arms, as well as the opposite view of a second bracket joining a second set of articulating arms;



FIG. 30 provides an exploded view of an alternate bracket usable in the FIG. 25 canopy support structure;



FIGS. 31 & 32 illustrate a third example of a canopy support structure, without the suspension mechanism illustrated in FIG. 25;



FIG. 33 illustrates a square “quadrilattice” canopy support structure;



FIGS. 34 & 35 illustrate a fourth example of a canopy support structure, referred to as an “offset equilattice” canopy support structure;



FIG. 36 illustrates a fifth example of a canopy support structure;



FIG. 37 provides a close-up view of a primary hub usable in the FIG. 36 canopy support structure;



FIG. 38 illustrates a sixth example of a canopy support structure;



FIG. 39 illustrates a modular secondary hub that could be used in place of any of the secondary hubs shown in FIG. 38;



FIG. 40 illustrates a seventh example of a canopy support structure;



FIGS. 41 & 42 illustrate a secondary articulating arm having an optional telescoping arm;



FIG. 43 illustrates a canopy support structure configured to mount on or adjacent one or more walls of a building;



FIG. 44 provides a plan view of a modular primary hub that may be used to implement each of the primary hubs of the canopy support structure shown in FIG. 43;



FIG. 45 illustrates a canopy support structure that is mountable at an inside corner of a building;



FIG. 46 illustrates a canopy support structure that is mountable at an outside corner of a building;



FIG. 47 illustrates the framework of a canopy support structure that is mounted via a row of upper hubs to a horizontal top track;



FIG. 48 illustrates the framework of a canopy support structure that is mounted via a row of lower hubs to a horizontal bottom track;



FIG. 49 illustrates the framework of a canopy support structure that is mounted to a horizontal track using rollers coupled to bypass pins;



FIGS. 50 & 51 illustrate an alternative embodiment of the canopy support structure shown in FIG. 49, wherein the vertical track is mounted to one side of the horizontal track;



FIG. 52 illustrates a hub configured to mount a canopy support structure to a horizontal track;



FIG. 53 illustrates a hub configured to mount a canopy support structure to a vertical track;



FIGS. 54-57 illustrate a first method for attaching a novel, segmented, self-draining canopy to the canopy support structure shown in FIGS. 1-6;



FIG. 58 illustrates a second method for attaching a novel, segmented, self-draining canopy to the canopy support structure shown in FIGS. 1-6;



FIGS. 59-83 illustrate the construction and use of various alternative hub configurations (and components thereof);



FIGS. 84-88, 89A & 89B illustrate an eighth example of a canopy support structure;



FIGS. 90-94 illustrate a ninth example of a canopy support structure; and



FIGS. 95-97 illustrate a tenth example of a canopy support structure.





DETAILED DESCRIPTION


FIGS. 1-6 illustrate a first example of a canopy support structure 100. The structure 100 comprises a pole 102 (i.e., a single support pole that suspends the canopy support structure from a surface or mount), a three-dimensional array 104 of hub pairs 134, 136, 138, 140, and a plurality of articulating arms or members (e.g., 106, 108, 110, 112, 114, 116). The hubs (e.g., 118/120, 122/124, 126/128, 130/132) of each hub pair (e.g., 134, 136, 138, 140) move toward each other during extension of the canopy support structure 100 (as shown in FIGS. 1 & 2), and away from each other during retraction of the canopy support structure 100 (as shown in FIG. 3). A first of the hub pairs 134 includes a first hub 118 and a second hub 120, each of which is coupled to and movable along the pole 102. These hubs 118, 120 are referred to herein as “primary hubs”.


In some embodiments, the canopy support structure 100 may be extended or retracted by means of a user moving (e.g., rolling or sliding) the lower hub 120 up and down the pole 102. FIG. 4 illustrates the canopy support structure 100 in an intermediate position, about halfway between the structure's fully extended and fully retracted positions.



FIGS. 2 & 5 illustrate different subsets of the hub pairs and articulating arms that form the canopy support structure 100. As shown most clearly in FIG. 2, the articulating arms or members 106, 108, 110, 112, 142, 144, 146, 148, 150, 152 connect the hub pairs 134, 136, 138, 140 and include sets of scissor-connected primary articulating arms (e.g., 106/108, 142/144, 146/148). By “scissor-connected”, it is meant that the primary articulating arms are coupled at some point along their length by a pivot mechanism, such as a pin or mechanical connector (e.g., pivot-connected sleeves or clips for receiving different ones of the scissor-connected primary articulating arms). Each of the hub pairs 134, 136, 138, 140 is pivotally connected to at least one other of the hub pairs 134, 136, 138, 140 by a respective set of the primary articulating arms 106/108, 142/144, 146/148. By way of example, FIGS. 1-6 illustrate a canopy support structure 100 where primary articulating arms 106, 108, 142, 144, 146, 148 only extend in a radial direction from the pole 102—i.e., between the primary hubs 118, 120 (i.e., those that move along the post 102) and secondary hubs 122, 124, 126, 128, 130, 132 (i.e., those that are coupled to the post 102 via articulating arms 106, 108, 142, 144, 146, 148). However, in some canopy support structure embodiments, primary articulating arms can also extend between pairs of secondary hubs, as discussed below in the context of lateral support members.


The articulating arms may also comprise secondary and tertiary articulating arms 114, 116. Each of the secondary articulating arms 114 has first and second ends 154, 156, with the first end 154 being pivotally connected to one of the hubs 130, and with the second end 156 hanging free or being foldably coupled to an end of an articulating arm 174 that is coupled to a different hub pair 136 (e.g., by a foldable plastic or nylon connector comprising sleeves that engage the distal ends of adjacent articulating arms 114, 174, or by a canopy or canopy segment having pockets that receive the distal ends of adjacent articulating arms 114, 174). Each secondary articulating arm 114 pivots with respect to a tertiary arm 116 at some intermediate point along its length. Each of the tertiary articulating arms 116 also has first and seconds 158, 160, with a first end 158 being pivotally connected to one of the hubs 132, and with a second end 160 being pivotally connected to an intermediate or end portion or of another articulating arm 114.



FIG. 7 illustrates an example of a bypass pin connection 162 between two primary articulating arms 106, 108. The connection 162 comprises a pin 164 that extends through each of the primary articulating arms 106, 108 and allows them to pivot with respect to one another. The pin may be secured by having a head on one end, and a flare (rivet), bend, nut or other feature on the other end. In the case of a nut, the pin may be provided with threads over at least a portion thereof. A suspension arm 178 is sandwiched between the primary articulating arms 106, 108 and is retained by the pin 164. Alternately, the primary articulating arms 106, 108 could be separated by a bushing or abutted directly against each other, or bushings or spacers could be included between each of 1) the articulating arm 106 and the suspension arm 178, and 2) the articulating arm 108 and the suspension arm 178. By way of example, the bushings or spacers may be formed of nylon, plastic or steel. Use of a lower friction material can improve the operability and extend the life of the articulating arms 106, 108, 178. Bypass pin connections can be used to couple various ones of the articulating arms 106, 108, 142, 144, 146, 148 used in the canopy support structure 100 (see FIGS. 1, 2 & 5).



FIG. 8 illustrates a first example of a mechanical connector connection between secondary and tertiary articulating arms 114, 116. The mechanical connector connection comprises a connector 166. By way of example, the connector 166 comprises a body 168 in which first and second pins 170, 172 are received. The pins 170, 172 respectively engage the secondary and tertiary arms 114, 116 and retain them within the connector body 168. Mechanical connector connections can be used to couple various ones of the articulating arms, and in some cases may connect primary articulating arms. Other types of connections between articulating arms may also be employed, such as the connection shown in FIG. 9.



FIG. 9 illustrates a second example of a mechanical connector connection for connecting secondary and tertiary articulating arms 114, 116. The mechanical connector connection comprises a connector 900 having perpendicular channels 902, 904. The first channel 902 has a curved surface that partially surrounds the circumference of a secondary articulating arm 114. In some cases, the curved surface surrounds less than 180 degrees of the circumference of the secondary articulating arm 114. In other cases, the curved surface may surround more than 180 degrees of the circumference of the secondary articulating arm 114. In the latter cases, the secondary articulating arm 114 may clip into the first channel 902 of the connector 900. The second channel 904 has a curved surface oriented perpendicularly to the curved surface of the first channel 902. The second channel 904 is configured to receive one end of a tertiary articulating arm 116 such that the end faces into and rotates within the second channel 904. A pin or other suitable fastener may be placed through corresponding holes in the secondary articulating arm 114, connector 900 (e.g., hole 906) and tertiary articulating arm 116.


A number of lateral support members 110, 112, 150, 152 may connect the pairs 136, 138, 140 of secondary hubs 122, 124, 126, 128, 130, 132. See FIGS. 1 & 2. By way of example, the lateral support members 110, 112, 150, 152 may take the form of ropes, cords, cables, wires or other flexible elements that provide tension between the secondary hubs 122, 124, 126, 128, 130, 132. In contrast to a flexible canopy, which only provides lateral bracing to its support structure when its support structure is fully extended, the lateral support members 110, 112, 150, 152 provide lateral bracing during all stages of operation of the canopy support structure 100 (e.g., when the canopy is fully extended, fully retracted, or in any position between fully extended and fully retracted). Despite the flexibility of these lateral support members 110, 112, 150, 152, they may still articulate at their points of connection with the secondary hubs 122, 124, 126, 128, 130, 132. In some cases, the lateral support members 110, 112, 150, 152 can be implemented as scissor-connected (or unconnected) primary articulating arms 106, 108, 142, 144, 146, 148. With concentric umbrellas (i.e., concentric around a pole 102, as shown in FIGS. 1 & 6), the tangential/concentric ring of lateral support members need only carry tension and so can comprise much lighter and non-rigid members.



FIG. 6 illustrates a top plan view of the canopy support structure 100. As the figure illustrates, the three-dimensional array 104 of hub pairs and plurality of articulating arms or members 106, 108, 110, 112, 114, 116, 142, 144, 146, 148 shown in FIGS. 1-6 define a three-dimensional articulating lattice structure. By way of example, the three-dimensional articulating lattice structure is shown to have six equilateral triangle support structures 600, 602, 604, 606, 608, 610. Each equilateral triangle support structure (e.g., 600) comprises a first set of hubs 118, 122, 126 defining vertices of a first equilateral triangle (see FIG. 2); a second set of hubs 120, 124, 128 defining vertices of a second equilateral triangle; and a plurality of articulating arms or members 106, 108, 110, 112, 146, 148 connecting the hubs 118, 120, 122, 124, 126, 128 defining the vertices of the first and second equilateral triangles. As shown in FIG. 6, adjacent ones of the equilateral triangle support structures (e.g., 600, 610) may share certain hub pairs 134, 136 and articulating arms 106, 108. A canopy support structure 100 may be modified to comprise any number of equilateral triangle support structures and is sometimes referred to herein as an “equilattice” canopy support structure. For large umbrellas, additional secondary hub pairs may be added beyond the ring of secondary hub pairs formed, in part, by the secondary hub pairs 136, 138, 140 shown in FIG. 6.


The lattice framework 186 formed by the array 104 of hub pairs and articulating arms or members 106, 108, 110, 112, 142, 144, 146, 148, 150, 152 may be tethered to the pole 102 by a tethering system (also referred to as a suspension system). See, in particular, FIGS. 1 & 5. By way of example, the tethering system may comprise 1) an anchor on the pole, such as a suspension hub 176, and 2) a plurality of tethers or articulating suspension arms (e.g., 178). The tethers or suspension arms 178 are coupled between the anchor 176 and the lattice framework 186. The suspension arms 178 may be constructed similarly to ones of the articulating arms or members 106, 110 that connect the hub pairs 134, 136, 138, 140, with rigid members that provide additional structural support for the primary articulating arms 106, 108 in the event of a wind event (e.g., a wind event that causes uplift forces on the canopy support structure 100 and the canopy it supports. Alternately, tethers may be provided by flexible elements such as ropes, cords, cables or wires. In FIG. 5, the suspension arm 178 comprises a first end 180 that is coupled between scissor-connected primary articulating arms 106, 108 by means of a bypass pin connection. The second end 182 of the suspension arm 178 is coupled by means of a double-shear connector 184 to the suspension hub 176. The double-shear connector 184 is shown in more detail in FIG. 10 and may comprise a tubular portion 1000 that slips inside one of the hollow suspension arms 178, and a forked end comprising two tines 1004, 1006. Alternately, and by way of example, the tubular portion 1000 may be hollow and slip over one of the suspension arms 178, or the double-shear connector 184 may be welded to or otherwise permanently integrated with one of the suspension arms 178. A rib of the suspension hub 176 is received between the tines 1004, 1006 and fastened thereto with a pin that extends through holes 1008, 1010 in the tines 1004, 1006 and the rib. Likewise, the tubular portion 1000 of the connector 184 is fastened to the suspension arm 178 with a pin that extends through holes 1002 in the connector 184 and suspension arm 178.


The articulating arms and members 106, 108, 110, 112, 114, 116, 178 of the canopy support structure 100 (FIG. 1) may be formed using the same or different materials. By way of example, the articulating arms 106, 108, 114, 116 may be hollow extruded aluminum tubes having square cross-sections; the suspension arms 178 may be hollow extruded aluminum tubes having circular cross-sections; and the lateral support members 110, 112 may be metal cords or fabric cables. Alternately, for example, any of the arms or members may be made of wood or a composite material; may be hollow or solid; or may have square, rectangular, circular or other cross-sections. The lateral support members and tethers may also be ropes, cords, cables or wires, for example.



FIG. 11 illustrates an example 1100 of a primary hub 118 or 120. The primary hub 1100 comprises a plurality of modular components 1102, 1104, 1106, 1108, 1110, 1112. FIG. 12 illustrates only two of the modular components 1102, 1104. Each modular component 1102-1112 is identical in construction and is generally wedge-shaped. The outer surface of each component 1102-1112 has a double-humped surface that defines part of a hub waist 1114. Additional waists 1128, 1130 may be formed by lips formed at each end of the hub's pole-receiving cavity 1154 (FIG. 12). Wires, cords, clips or other elements may be placed around one or more of the waists 1114, 1128, 1130 and fastened to secure the modular components 1102-1112 to one another, thereby forming the hub 1100. In this manner, the hub 1100 may be easily constructed, disassembled or repaired.


A rib 1116, 1118, 1120, 1122, 1124, 1126 extends from the outer surface of each modular component 1102-1112 and has a hole bridging its sidewalls (e.g., hole 1156). As shown in FIG. 5 and illustrated by components 108 and 118, an articulating arm may be pinned to each rib 1120 by means of its hole 1156 and a suitable pin.


Internally, each modular component 1102-1112 has a number of alignment features for aligning the modular component with adjacent components. By way of example, the alignment features are shown to comprise a pair of holes 1132, 1134 on one internal face 1136 of each wedge-shaped component, and a pair of corresponding pins 1138, 1140 on the other internal face 1142 of each wedge-shaped component (FIG. 12). The pins may thereby be inserted into corresponding holes to construct the hub 1100.


Each internal face (e.g., 1136, 1142) of a modular component 1102-1112 may be recessed from the boundary of the modular component's outer surface and have a pair of axle-receiving holes 1146, 1148 therein. In this manner, an axle with attached wheel (1150 or 1152) may be fit between facing ones of the holes 1146, 1148 as the modular components 1102-1112 are assembled to form the hub 1100. This enables the hub 1100 to roll along the surface of the pole 102 on which it is mounted, making it easier for a canopy operator to move the hub 1100 along the pole 102. This is particularly useful for offset canopy support structures (e.g., any of the offset canopy support structures described later in this document), where the imbalance of forces on each hub might otherwise cause the hubs to bind up on the pole 102 and prevent smooth movement of a canopy support structure along the length of the pole 102. Similarly, the double-hump arrangement may house two tiers of wheels or bearings to ensure alignment of the hub 1100 with the pole 102 for smooth movement along the length of the pole 102. Alternately, the wheels 1150, 1152 may be eliminated; the double-hump may be eliminated in favor of a single hump; and the pole-receiving cavity 1154 of the hub 1100 may be provided with a diameter that enables the hub 1100 to slide along the surface of the pole 102.



FIG. 13 illustrates a second example 1300 of a primary hub 118 or 120. The hub 1300 includes a plurality of modular components 1302, 1304, 1306 that fit together similarly to the components 1102-1112 shown in FIG. 11. Three of the modular components are removed to reveal components interior to the hub 1300. Each of the modular components 1302-1306 includes a rib 1308-1312 with a hole or holes for connecting articulating arms or other elements to the component 1302-1306.


The outer surface of each modular component 1302-1306 defines part of a circumferential channel or waist 1314, 1316 at each end of the hub's pole-receiving cavity 1330. Wires, cords, clips or other elements may be placed around each of the waists 1314, 1316 and fastened to secure the modular components 1302-1306 to one another, thereby forming the hub 1300.


Interior to the hub 1300 are two pairs of rings 1322/1324, 1326/1328. Each ring 1322-1328 has an inner surface 1332 that defines part of the pole-receiving cavity 1330, and an outer surface 1334 that abuts interior surfaces of the modular components 1302-1306. Connecting the inner and outer surfaces 1332, 1334 of each ring 1322 are a number of structural ribs. A number of slots defined in each ring 1322-1328 provide locations for receiving wheels or bearings (e.g., wheels 1318 and 1320). The slots face inwardly toward the pole-receiving cavity 1330. Each wheel 1318 may be mounted on an axle, with ends of the axle being trapped between the rings of each pair 1322/1324, 1326/1328. Spacers or clips on the interior surfaces of the modular components 1302-1306 may hold the ring pairs 1322/1324, 1326/1328 apart from one another. Alternately, spacers between or attached to the ring pairs 1322/1324, 1326/1328 may hold the ring pairs 1322/1324, 1326/1328 apart from each other.


In other embodiments of the primary hubs 118, 120, each hub 118, 120 may be formed as a unitary molded structure or in other ways. If a hub is formed as a unitary molded structure, recesses for receiving wheels or bearings may be provided on the interior surface of its pole-receiving cavity.


The suspension hub 176 may in some cases be constructed of modular components with wheels or rollers, similarly to how the primary hub 1100 is constructed. FIG. 14 illustrates an alternate example 1400 of the suspension hub 176, constructed with modular components 1402, 1404, 1406, 1408, 1410 and 1412 similarly to how the primary hub 1100 is constructed, but without wheels or rollers on the interior of its pole-receiving cavity 1414.


The outer surface of each modular component 1402-1412 defines part of a circumferential channel or waist 1416, 1418 at each end of the hub's pole-receiving cavity 1414 (FIG. 14). Wires, cords, clips or other elements may be placed around each of the waists 1416, 1418 and fastened to secure the modular components 1402-1412 to one another, thereby forming the hub 1400.


The outer surface of each modular component 1402-1412 further comprises a rib 1420, 1422, 1424, 1426, 1428, 1430 to which a double-shear connector (e.g., 184) attached to a suspension arm (e.g., 178) may be pinned. See FIG. 10. The ribs 1420-1430 may be sized to extend beyond those of the primary hubs 1100, thereby enabling the suspension arms 178 to hang vertically outside the circumference of each primary hub 1100 and not interfere with the primary hubs 1100 when the canopy support structure 100 is in its retracted position.


In some cases, the ribs 1420-1430 may comprise holes 1432, 1434, 1436, 1438, 1440, 1442 through which the components of a multi-part canopy (e.g., the canopy shown in FIGS. 54-57) may be laced.


Because the suspension hub 1400 has a pole-receiving cavity 1414 that fully receives the pole 102, its ability to roll or slide down the pole 102 needs to be limited via a pin 1500 or other mechanism at or near the top of the pole 102. See, for example, the suspension and primary hubs 1400, 118, 120 shown in different operating positions in FIGS. 15-17, where FIG. 15 shows one possible hub position when a canopy support structure is fully retracted; FIG. 16 shows hub positions when the canopy support structure is partially extended or retracted; and FIG. 17 shows hub positions when the canopy support structure is fully extended. When coupled with a pin 1502 or other mechanism to set the lower extent of the lower primary hub 120, setting the lower extent of the suspension hub 1400 short of the top of the pole 102 allows the suspension hub 1400 to move upward along the pole 102 as the canopy support structure retracts and the lowest primary hub 120 reaches its lower extent (i.e., as the hubs 1400, 118, 120 move from their FIG. 16 positions to their FIG. 15 positions). This enables a designer to control the lower clearance of the retracted canopy support structure (FIG. 15) and the lower clearance of the extended canopy support structure (FIG. 17) independently. In some cases, a pole 102 may be provided with multiple holes for receiving the pins 1500 and 1502, thereby enabling a user of a canopy support structure to place the pins at selected locations along the pole 102. Alternately, a suspension hub could be fixed to a movable mast mounted at the top of the pole 102 (i.e., in or about the top of the pole 102). Movement of the suspension hub can then be achieved via movement of the movable mast.


In some cases, the upper opening of the pole-receiving cavity 1414 can be fully or partly covered by a cap or finial, thereby enabling the suspension hub to sit atop the pole 102.



FIG. 18 illustrates a modular component 1800 that may be joined with five like modular components to form a second example of a suspension hub. The modular component 1800 has a rib 1802 and two holes 1804, 1806 that function similarly to corresponding elements of the modular component 1402 (FIG. 14). However, the modular component 1800 has an interior recess 1808 that, with similar recesses in the modular components that are joined to the modular component 1800 to form a suspension hub, enables a suspension hub formed of modular components 1800 to sit atop the pole 102 of the canopy support structure 100 (FIG. 1). In addition, the modular component 1800 has a recess 1810 that, with similar recesses in the modular components that are joined to the modular component 1800 to form a suspension hub, provides a way to anchor the head of a bolt to which a cap 188 or finial is attached.



FIG. 19 illustrates a third example 1900 of a suspension hub. The suspension hub 1900 is formed as a unitary molded structure having a shaft 1916 with pole-receiving cavity 1902. In an alternate configuration, the suspension hub 1900 could have a body 1918 sized to fit within the pole 102 such that the horizontal member 1920 rests atop the pole 102. In contrast to the suspension hub 1400 shown in FIG. 14, the suspension hub 1900 has double-shear connectors 1904, 1906, 1908, 1910, 1912, 1914 for directly receiving suspension arms. That is, a suspension arm 178 may be pinned to the suspension hub 1900 without using a double-shear connector 184.



FIG. 20 illustrates a fourth example 2000 of a suspension hub. The suspension hub 2000 takes the form of a suspension ring having a plurality of holes 2002, 2004, 2006, 2008, 2010, 2012 therein. When non-rigid suspension members such as ropes or cords are used to suspend a lattice framework, the ropes or cords may be laced through one or more of the holes 2002-2012 and then attached to various points of the lattice framework. In addition, or alternately, the components of a multi-part canopy (e.g., the canopy described later in this document) may be laced to the suspension ring 2000. Additional holes 2016, 2018 may be provided to accommodate other arrangements of articulating lattice structures (e.g., any of the “quadrilattice” arrangements described later in this document).


The underside of the suspension ring 2000 may have a channel 2014 formed therein. The channel 2014 allows the suspension ring 2000 to seat more positively on a pin that retains the suspension ring 2000 atop a pole 102.


In some embodiments, the suspension hubs 1400 or 1900, or suspension ring 2000, may be used in conjunction with an optional pole cap 188 (see, FIGS. 1-5). In these embodiments, lower canopy segments 5400, 5402, 5404, 5406, 5408, 5410 of a multi-part canopy may be laced or otherwise attached to the suspension hub 1400, 1900 or 2000; and the pole cap 188 may be used to support the center segment 5430 of the multi-part canopy. See, e.g., FIGS. 54-57. Optionally, a finial may be attached to the pole cap 188, and the canopy segment 5430 may be held between the pole cap 188 and finial.



FIG. 21 illustrates an example 2100 of a secondary hub 122, 124, 126, 128, 130, 132—i.e., one of the hubs that is connected directly or indirectly to one of the primary hubs 118, 120 by means of articulating arms. The secondary hub 2100 comprises a plurality of modular components 2102, 2104, 2106, 2108, 2110, 2112, each of identical construction and generally wedge-shaped. The outer surface of each component 2102-2112 defines part of a circumferential channel or waist 2114, 2116 at each axial end of the hub 2100. Wires, cords, clips or other elements may be placed around each of the waists 2114, 2116 and fastened to secure the modular components 2102-2112 to one another, thereby forming the hub 2100.


The outer surface of each modular component 2102-2112 further comprises a rib 2118, 2120, 2122, 2124, 2126, 2128 to which an articulating arm or member 106, 108, 110, 112 may be tied or pinned. See FIGS. 1 & 2.


In other embodiments of the secondary hubs 122-132, each hub 122-132 may be formed as a unitary molded structure or in other ways.



FIG. 22 illustrates an example of a mechanism 2200 for extending and retracting the canopy support structure 100 or any other canopy support structure. The mechanism 2200 comprises a block and tackle 2202 having pulleys 2204, 2206 attached to the outer surfaces, ribs or collars 2208, 2210 of first and second primary hubs 2212, 2214. A cord 2216 is anchored to one of the pulleys 2206 and threaded around each of the pulleys 2204, 2206, in a typical block and tackle configuration. The block and tackle 2202 may be implemented as a single or multi-loop block and tackle. The free end 2218 of the cord 2216 is pulled to extend the canopy support structure attached to the primary hubs 2212, 2214 (not shown in FIG. 22), and released to retract the canopy support structure. When pulled, the cord 2216 may be wrapped around a cleat to maintain the canopy support structure's extended position. A second block and tackle, similar to block and tackle 2202, may be added to ribs or collars diametrically opposite the ribs or collars 2208, 2210 to ensure symmetrical loading of the block and tackle on the hubs, and to further enable smooth movement of the primary hubs 2212, 2214 along the length of the pole 2220.


Alternate mechanisms may be used to extend and retract a canopy support structure. The mechanisms may be more rudimentary or more complex than the block and tackle shown in FIG. 22, and may include mechanisms mounted wholly or partly external or internal to the pole. Some forms of mechanism may include a crank for operating the mechanism. The various types of mechanisms usable to extend and retract a canopy support structure are not a part of the invention, and will not be described in further detail in this disclosure.



FIG. 22 also illustrates an optional safety stop 2222 (e.g., a collar that is welded or otherwise affixed to the pole 2220). The safety stop 2220 can be mounted mid-distance between the primary hubs 2212, 2214, and can help prevent over rotation of the canopy support structure's articulating arms in high winds.



FIGS. 23 & 24 illustrate a pair of secondary hubs 2300, 2302 of substantially identical construction, wherein the upper one of the hubs 2300 has an optional telescoping mast 2304 fitted through a central sleeve of the hub 2300. FIG. 23 shows the hubs 2300, 2302 when a canopy support structure is in its extended position. In this position, the telescoping mast 2304 bears against the upper surface of the lower hub 2302 and is pushed upward and out of the hub 2300 to a fully extended position. FIG. 24 shows the hub 2300 when a canopy support structure is in a retracted or partially retracted position. In this position, the telescoping mast 2304 extends past the lower surface of the upper hub 2300. The telescoping mast 2304, and the length thereof, can be used to affect the drape of a canopy attached to the canopy support structure. In some cases, the telescoping mast 2304 can be used to simply push up and elevate a portion of a canopy. Alternately, a canopy could be attached to the telescoping mast 2304, and the telescoping mast 2304 can push or pull the canopy to affect the canopy's drape.


The height of the hubs 2300, 2302 may be selected such that the hubs 2300, 2302 rest against each other or abut a spacer 2306 of the telescoping mast 2304 when a canopy support structure is in its fully extended position. Among other things, having the hubs 2300, 2302 rest against each other when the canopy support structure is extended helps prevent over-rotation of the structure's articulating arms.


In some cases, a telescoping mast may have a threaded finial attached to its upper end. In this manner, a canopy may be provided with a hole or grommet through which a portion of the telescoping mast may be inserted before the finial and mast are threaded together from opposite sides of the canopy.


In some embodiments, the canopy support structure 100 may be modified by eliminating its lateral support members 110, 112, 150, 152. This makes the structure simpler and less expensive, but also makes it weaker. Nonetheless, the option of eliminating lateral support members can be especially useful when designing umbrellas for more protected areas. The umbrella's secondary hubs 122-132 remain laterally braced, but by secondary arms at obtuse angles as opposed to primary arms at acute angles. In fact, canopies directly attached to the upper secondary hubs 122, 126, 130 would do the task of bracing those hubs 122, 126, 130, which may be all the bracing needed for some sizes of canopy support structures.



FIG. 25 illustrates a second example 2500 of a canopy support structure, and FIG. 26 illustrates an elevation of one radial arm of the canopy support structure 2500. The canopy support structure 2500 comprises a pair 2502 of primary hubs 2504, 2506, a plurality of primary, secondary and tertiary articulating arms (e.g., 2508, 2510, 2512, 2514), a suspension hub 2516, a plurality of suspension arms (e.g., 2518), and a pole 2520 (i.e., a single support pole that suspends the canopy support structure from a surface or mount), and operates similarly to the canopy support structure 100. However, in addition to eliminating lateral support members, the canopy support structure 2500 uses brackets (e.g., 2522, 2524) in lieu of secondary hubs. In alternate embodiments, the brackets 2522, 2524 could be replaced with simple bypass pin connections. However, the brackets 2522, 2524 provide additional stability to the joints between articulating arms 2508/2512, 2510/2514, and the upper brackets 2522 provide an anchor point for attaching a canopy or components thereof to the framework 2526. Additionally, the upper brackets 2522 protect an attached canopy from wear due to friction resulting from contact with the articulating arms 2508, 2512.


Similarly to the primary hubs 118, 120 of the canopy support structure 100 shown in FIG. 1, the primary hubs 2504, 2506 are coupled to and movable along the pole 2520. The hubs 2504, 2506 are movable toward each other during extension of the canopy support structure 2500, and away from each other during retraction of the canopy support structure 2500.


Each of the primary 2508, 2510, secondary 2512 and tertiary 2514 articulating arms is connected directly or indirectly to the first or second primary hub 2504, 2506, with at least some of the articulating arms 2508, 2510 being coupled in sets of scissor-connected primary articulating arms. In the canopy support structure 2500 shown, all of the scissor-connected primary articulating arms 2508, 2510 are connected directly to the first and second primary hubs 2504, 2506 and extend outward from the first and secondary primary hubs 2504, 2506 during expansion of the canopy support structure 2500. In alternate embodiments of the canopy support structure 2500, additional sets of scissor-connected primary articulating arms (and additional brackets) may be used to further extend the reach of a canopy support structure and may be indirectly connected to the first and second primary hubs 2504, 2506 via other sets of scissor-connected primary articulating arms. The same is true for the other canopy support structures (e.g., structure 100) disclosed herein.



FIGS. 27 & 28 provide exploded views of one bracket 2522. FIG. 27 provides a view of the bracket 2522 as it would be seen from above a canopy. As shown, the bracket 2522 may be formed using two pieces 2528, 2530 of a single modular component, with one of the pieces 2530 rotated 180 degrees with respect to the other piece 2528.


Each modular component 2528, 2530 comprises alignment features such as an alignment hole 2532 or 2538 and an alignment pin 2534 or 2536, enabling the pin 2534 or 2536 of one component to be received by the hole 2532 or 2538 of the other component. Each modular component 2528, 2530 also comprises a hole 2540 or 2542. When the components 2528, 2530 of the bracket 2522 are assembled, the holes 2540, 2542 may be used for lacing a canopy or components thereof to the bracket 2522. This not only provides a mechanism for attaching the canopy to a lattice framework 2530, but can also enable the canopy to provide additional structural stability to the canopy support structure 2500 when the structure 2500 is in its extended position.



FIG. 28 shows the undersides of the components 2528, 2530, as well as a bushing 2544 that sits between the articulating arms 2508, 2512 that are joined by the bracket 2522. FIG. 29 illustrates a top view of the bracket 2522 joining articulating arms 2508 and 2512, as well as the opposite view of the bracket 2524 joining articulating arms 2510 and 2514. The components 2528, 2530, 2544 of each bracket 2522, as well as the articulating arms 2508, 2512 to be joined, may be fastened together by inserting a pin through respective holes in the bracket components 2528, 2530, 2544 and articulating arms 2508, 2512.


In alternate embodiments of the canopy support structure 2500, different forms of brackets or fasteners could be used to join articulating arms. One such bracket is illustrated in FIG. 30. Of note, the bracket 3000 has only two elements, versus the three elements included in the brackets 2522, 2524 shown in FIGS. 25-29. One element comprises a bridge 3002 connecting two end caps 3004, 3006. The other element is a wheel 3008 having a circumferential channel 3010 and a pair of edge recesses 3012, 3014. The edge recesses 3012, 3014 mate with respective protrusions 3016, 3018 on the underside of the bridge 3002. One articulating arm may be positioned between the wheel 3008 and the end cap 3004, and another articulating arm may be positioned between the wheel 3008 and the end cap 3006. A pin may then be inserted through corresponding holes in the end caps 3004, 3006, wheel 3008 and articulating arms. Other brackets may include, for example, a feature or mechanism (e.g., a hole, hook or connector) for connecting rigid or flexible lateral support members to the brackets.



FIGS. 31 & 32 illustrate a third example 3100 of a canopy support structure. The structure 3100 is similar to the structure 2500, but with elimination of the suspension mechanism (e.g., the suspension hub 2516 and arms 2518). With elimination of the suspension mechanism, the canopy support structure 2500 has fewer parts, but the stability of the framework 2526 becomes dependent on the spacing of the primary hubs 2504, 2506 when the canopy support structure 2500 is extended. This tends to limit the horizontal extent of the canopy support structure 2500. Also, without the suspension mechanism, the ability of the upper primary hub 2504 to roll or slide down the pole 2520 needs to be limited via a pin or other mechanism at or near the top of the pole 2520.


To provide maximum clearance under the canopy support structure 3100 when extended, the lower bound of the upper primary hub 2504 needs to be positioned as close to the top of the pole 2520 as possible. However, this requires a canopy to take on a shallow dome shape, which may be less aesthetically pleasing. To achieve a canopy with concave draping and more visual interest, the lower bound of the upper primary hub 2504 can be set at a lower position on the pole 2520, as shown in FIG. 32. In either case, the lower bound of the upper primary hub 2504 may be positioned along the length of the pole 2520 by inserting a stop pin through holes in the pole 2520 positioned just below a desired position of the upper primary hub 2504. In some embodiments, multiple sets of holes may be provided in the pole 2520, so that a canopy operator may choose the location at which the lattice framework 2526 will be opened. When coupled with a pin or other mechanism to set the lowest extent of the lower primary hub 2506, setting the lower extent of the upper primary hub 2504 short of the top of the pole 2520 allows the upper primary hub 2504 to move upward along the pole as the canopy support structure 3100 retracts and the lowest primary hub 2506 reaches its lower bound. This allows a canopy designer to set the lower clearance of the retracted framework 2526 independently of the lower clearance of the extended framework 2526.


Note that the lower primary hub 2506 in FIGS. 31 & 32 is flipped 180 degrees with respect to its orientation in FIG. 25. This modification places the hub's ribs “up” and enables the non-ribbed portion of the hub 2506 to be gripped when a user wants to extend or retract the canopy support structure 2500, as opposed to providing the canopy support structure with a crank or pulley mechanism. Flipping one or both primary hubs 2506, 2508 of any canopy support structure 180 degrees also allows the secondary hubs 122, 124 of the canopy support structure 100 (or brackets 2522, 2524 of the canopy support structure 2500) to draw closer together for a shallower framework 186, 2526 when fully extended.


The various hubs used in the canopy support structures 100, 2500, 3100 described above are each configured to attach to six articulating arms or members. In other canopy support structures, hubs may be configured to attach to different numbers or arrangements of articulating arms and members. For example, FIG. 33 illustrates a square “quadrilattice” canopy support structure 3300 in which the primary hubs 3302, 3304, secondary hubs (e.g., 3306, 3308, and suspension hub 3310 are each configured to attach to four articulating arms (e.g., 3312, 3314, 3316, 3318).



FIGS. 34 & 35 illustrate a fourth example 3400 of a canopy support structure. This embodiment is referred to as an “offset equilattice” canopy support structure 3400. FIG. 34 illustrates the structure 3400 in an extended position. FIG. 35 illustrates the structure 3400 in a retracted position. In principle, the structure 3400 is configured and operates similarly to the structure 100 shown in FIGS. 1-6. However, the structure 3400 extends eccentrically rather than concentrically from a pole 3402 (i.e., a single support pole that suspends the canopy support structure from a surface or mount). The canopy support structure 3400 also includes two tiers of secondary hub pairs, with the secondary hub pairs 3404 and 3408 being one tier removed from the primary hub pair 3426, and with the secondary hub pair 3406 being two tiers removed from the primary hub pair 3426.


The number and arrangement of secondary hub pairs 3404, 3406, 3408 and articulating arms (e.g., 3410, 3412, 3414, 3416, 3418, 3420) is exemplary only, and other offset canopy support structures can have different numbers and arrangements of secondary hubs and articulating arms. Of note, many of the same hub and articulating arm components that are used to construct the concentric canopy support structure 100 shown in FIG. 1 may be used to construct the eccentric canopy support structure 3400 shown in FIG. 34. Note, however, that when the canopy support structure 3400 has a relatively short overhang on one side of the pole 3402, the use of secondary hubs or brackets may not be necessary in that part of the canopy support structure 3400. For example, a secondary articulating arm 3424 may be coupled at one end to the upper primary hub 3428; a tertiary articulating arm 3432 may be coupled at one end to the lower primary hub 3430; and the tertiary articulating arm 3432 may be coupled to the body of the secondary articulating arm 3424. Alternately, the secondary articulating arm 3424 could be replaced with another tertiary articulating arm. In either case, one end of a suspension arm 3434 may be coupled to the pin 3436 that joins the articulating arms 3424 and 3432.


In some cases, counterweights may be hung from the articulating arms 3422, 3424 of the shorter overhang; and in some cases, the counterweights may be hanging flower planters. Alternately, and by way of example, an optional brace may be secured between one of the articulating arms 3422, 3424 and the pole 3402 (or pole base, or ground) when the canopy support structure 3400 is extended. The brace may criss-cross the pole when viewed from certain angles, or may extend substantially vertically to the ground or pole base. When the canopy support structure 3400 is retracted, the brace may be detached from the canopy support structure 3400 at one or both ends. Alternately, the body of the brace can be configured to articulate, telescope or bend (e.g., in the case of a cable, wire or other flexible brace) as the canopy support structure is moved to its retracted position.



FIG. 36 illustrates a fifth example 3600 of a canopy support structure. The structure 3600 not only extends eccentrically from a pole 3602 (i.e., a single support pole that suspends the canopy support structure from a surface or mount), but it comprises hubs (e.g., 3604, 3606, 3608) with asymmetric arrangements of ribs. For example, FIG. 37 provides a close-up view of the primary hub 3604, which has a sleeve 3610 connected to a collar 3612, with five ribs 3614, 3616, 3618, 3620, 3622 connecting the sleeve 3610 and the collar 3612. The ribs 3614, 3616, 3618, 3620, 3622 are distributed asymmetrically about the sleeve 3610.



FIG. 38 illustrates a sixth example 3800 of a canopy support structure. The structure 3800 extends eccentrically from a pole 3802 (i.e., a single support pole that suspends the canopy support structure from a surface or mount) and comprises hubs (e.g., 3804, 3806, 3808, 3814, 3816, 3818, 3820, 3822) with asymmetric arrangements of ribs. In contrast to the other canopy support structures disclosed herein, the structure 3800 has a three-dimensional articulating lattice structure with a quadrilateral support structure 3810 (in the example shown, a square support structure). The quadrilateral support structure 3810 comprises a first set of hubs 3806, 3812, 3814, 3816 defining vertices of a first quadrilateral; a second set of hubs 3804, 3818, 3820, 3822 defining vertices of a second quadrilateral; and a plurality of articulating arms that interconnect the hubs 3804, 3806, 3812, 3814, 3816, 3818, 3820, 3822. Also unlike the other canopy support structures disclosed herein, the structure 3800 comprises an articulating, telescoping or flexible suspension member 3824 that connects to a hub 3822 (or to a rib thereof).



FIG. 39 illustrates a modular secondary hub 3900 that could be used in place of any of the secondary hubs 3806, 3814, 3816, 3818, 3820, 3822 shown in FIG. 38. Unlike the modular hubs described earlier in this description, the modular secondary hub 3900 comprises a number of 45 degree wedges instead of a number of 60 degree wedges. The modular secondary hub 3900 also comprises a mix of different types of wedges, including a first number of identical type wedges 3902, 3904, 3906, 3908, 3910 with ribs, and a second number of identical type wedges 3912, 3914, 3916 without ribs (i.e., blanks). The modular secondary hub 3900 therefore illustrates how different types of modular components may be mixed to form different configurations of hubs. For some embodiments of canopy support structure, wedges of different angular extents can be mixed to form a single hub. For example, 15, 30, 45 and even 60 degree wedges could be mixed to form a single hub. In general, modular components of smaller angular extent can be mixed and matched to form a wider variety of hub configurations.



FIG. 40 illustrates a seventh example 4000 of a canopy support structure. The structure 4000 employs an array of different types of hubs, as well as scissor-connected primary articulating arms (e.g., 4002, 4004) of different lengths. More particularly, the canopy support structure 4000 is an offset square quadrilattice similar to the canopy support structure 3800. However, unlike the canopy support structure 3800, which has a suspension arm 3824 directly connected to secondary hub 3816 or 3822, the canopy support structure 4000 has a suspension arm 4012 connected to primary articulating arms 4026 and 4028, at the hypotenuse of the square formed by the articulating arms 4002, 4004, 4022, 4024, 4030, 4032, 4034 and 4036. This arrangement requires the primary articulating arms 4026 and 4028 to be longer than the primary articulating arms 4002, 4004, 4022 and 4024, but allows the suspension arms 4012, 4014, 4016, 4018, 4020 to be the same length. In addition, it may require that the distance from one end of a primary, secondary, or tertiary arm to the closest scissor connection along the length of the arm be the same for all arms connected to any single hub. Alternately, the sum of the distance from one end of a primary, secondary, or tertiary arm to the closest scissor connection along the length of the arm and the distance from the corresponding end of the primary, secondary, or tertiary arm with which it is connected to the scissor connection by which the pair of arms are connected can be the same for all connected pairs of arms at all hub pairs. Alternately, varying the distance from the end of an arm to a scissor connection within a pair of arms, while keeping the sum of those distances the same for all pairs of hubs, allows the umbrella or awning designer to vary the pitch of the extended framework without compromising its smooth operation and compact contraction. For example, by increasing the length of the end 4038 of a downward sloping arm 4002 of a scissor-connected primary articulating arm pair 4002/4004, while decreasing the length of the end 4040 of an upward sloping arm 4004 by an equal amount, the canopy support structure 4000 can be caused to slope downward as it extends away from the pole 4006 (i.e., a single support pole that suspends the canopy support structure from a surface or mount). In a similar manner, a shorter tertiary articulating arm 4008 paired with a shorter end 4042 of a secondary articulating arm 4010 causes the secondary articulating arm 4010 to slope downward at a steeper angle. Such modifications can give rise to an even greater array of canopy support structure shapes, slopes and configurations.


Providing a canopy support structure with telescoping arms, to allow the above-described variations in arm length, allows the operator to independently adjust the slope of articulating arms upward or downward to account for varying angles of the sun, thereby providing increased shade advantage. Also, controlling the telescoping potential in the articulating arms with alignment holes of equal spacing, and connecting the telescoping arms with their corresponding main bodies with spring-loaded pins, allows a canopy support structure to be retracted at any time without restoring the symmetric configuration of the arms. Alternatively, inserting a spring inside the outer arm of the telescoping pair of arms and before inserting the inner arm of the telescoping pair of arms allows the spring to absorb impact resulting from the shade structure inadvertently falling or being blown over during a wind event.



FIGS. 41 & 42 illustrate a secondary articulating arm 4100 having an optional telescoping arm 4102. The telescoping arm 4102 slides within a main body 4104 of the secondary articulating arm 4100. The main body 4104 or telescoping arm 4102 can be tapered or otherwise configured so that the telescoping arm 4102 can be locked within the main body 4104 when retracted or extended. FIG. 41 illustrates the telescoping arm 4102 in a fully extended position, and FIG. 42 illustrates the telescoping arm 4102 in a partially or fully retracted position. The use of one or more telescoping arms 4102 around the periphery of a canopy support structure allows the circumference of the canopy support structure to be modified. Connecting the canopy to both the outer end 4108 of telescoping arm 4102 and outer end 4106 of main body 4104 creates a fold in the canopy, similar to a valance, when the telescoping arm 4102 is contracted, while maintaining a fully-stretched canopy.


In some cases, canopy support structures constructed in accordance with some or all of the principles disclosed herein may be configured to mount on or adjacent one or more walls of a building. A first such structure 4300 is shown in FIG. 43 and comprises hub pairs 4302, 4304, 4306 and articulating arms or members 4308, 4310, 4312, 4314, 4316, 4318 similar to those shown in FIGS. 1-6. The pole 4320 may be mounted to a wall of a building using one or more suitable mounting brackets. Providing flexibility in the mounting bracket creates a tilting mechanism for the canopy, for increased shade advantage and aesthetic interest. Alternately, the pole 4320 may be mounted on the ground adjacent a wall.



FIG. 44 provides a plan view of a modular primary hub 4400 that may be used to implement each of the primary hubs 4322 of the canopy support structure 4300. The modular primary hub 4400 comprises four ribbed modular components 4402, 4404, 4406, 4408, each of which is constructed identically to the modular components 1102-1108 used in the primary hub 1100 (FIG. 11). The modular primary hub 4400 also comprises two modular components 4410, 4412 that are ribless. The ribless modular components 4410, 4412 are better adapted to facing or abutting a wall.



FIG. 45 illustrates a canopy support structure 4500 that is mountable at an inside corner of a building (e.g., to or adjacent an inside corner of a building). FIG. 46 illustrates a canopy support structure 4600 that is mountable at an outside corner 4602 of a building (e.g., to or adjacent an outside corner of a building). Each of the canopy support structures 4500, 4600 are constructed and operate similarly to other canopy support structures that have already been described.


In addition to mounting a pole of a canopy support structures on or near a wall or building, a canopy support structure may be movably mounted on one or more tracks mounted on a wall or building. FIGS. 47-50 illustrate various exemplary ways to mount a canopy support structure on a track or tracks.


In FIG. 47, the framework of a canopy support structure 4700 is mounted via a row of upper hubs 4702, 4704, 4706 to a horizontal top track 4708. In some embodiments, the canopy support structure 4700 could be additionally supported with a vertical track (e.g., similar to the vertical track 4814 shown in FIG. 48). The upper hubs 4702, 4704, 4706 may be constructed similarly to the hub shown in FIG. 21, but with two of the ribbed wedges shown in FIG. 21 replaced with a pair of 15 degree wedge spacers 5202, 5204 and a 45 degree wedge 5206 having a rib 5208. See, for example, the exploded view of upper hub 5200 shown in FIG. 52. An arm 5210 is pivot-mounted at one of its ends to a hole in the rib 5208. An axle 5212 is rotationally mounted to the other end of the arm 5210. A horizontal track roller 5214 is rotationally mounted to the axle 5212.


In FIG. 48, the framework of a canopy support structure 4800 is mounted via a row or lower hubs 4802, 4804, 4806 to a horizontal bottom track 4808. In this embodiment, the lower hubs 4802, 4804, 4806 may be implemented using the hub design 5200 shown in FIG. 52. To provide the canopy support structure 4800 with more stability (e.g., to prevent the structure from tipping or pulling away from the wall 4810), one of the upper hubs 4812 may be slidably or rollably mounted to a vertical track 4814. An exemplary configuration of this upper hub 4812 is shown in FIG. 53. The hub 5300 may be constructed similarly to the hub 5200 (FIG. 53), but with an axle 5302 having vertically rolling rollers 5304, 5306 held by the hole in the wedge's rib 5208 (with the axle 5302 and rollers 5304, 5306 replacing the arm 5210, axle 5212 and horizontal track roller 5214).


In FIG. 49, the framework of a canopy support structure 4900 is mounted to a horizontal track 4902 using rollers coupled to bypass pins. The embodiment shown in FIG. 49 therefore represents a mid-mounted canopy support structure 4900. Similarly to the FIG. 48 embodiment, a vertical track 4904 may be employed to ensure the stability of the structure 4900. The vertical track 4904 may be centrally mounted with respect to the horizontal track 4202, thereby causing the canopy support structure 4900 to collapse in the center of the horizontal track 4902, or the vertical track 4904 may be mounted to one side of the horizontal track 4904, thereby causing the canopy support structure 4900 to retract to one side of the horizontal track 4902 (as shown in FIGS. 50 & 51). In some awning configurations, the canopy could be attached to the top of the vertical track. Alternatively, the apex of a canopy could be attached directly to a wall at a location independent of either the horizontal or vertical track.


Depending on their configurations, the disclosed canopy support structures can be used to provide various advantages over more conventional canopy support structures. For example, the scissor-like retraction of a canopy support structure enables it to provide more clearance over ground, thereby enabling the canopy support structure to clear the head of a person sitting or standing at a table positioned under the canopy support structure. In contrast, a conventional canopy support structure having a similar height and span barely clears the table. One can appreciate that the circumference of a conventional canopy support structure is limited by the height of its pole and the need for its arms to clear objects like people, tables and the ground when in a closed position. The novel canopy support structures disclosed herein are not so limited, and are capable of larger circumference and/or offset constructions that are not possible using conventional canopy support structures.


Another potential advantage of the disclosed canopy support structures is the ability to construct multiple configurations of canopy support structures using a relatively small number of parts. For example, the same configurations of pole, primary hub components, secondary hub components, suspension hubs and articulating arms can be used to construct the canopy support structures shown in many of the disclosed embodiments. The use of parts that are interchangeable among different configurations of canopy support structure adds simplicity and versatility to a product line of different canopy support structures, and reduces the number of parts that need to be manufactured and inventoried for the product line. Simplicity and versatility in product parts also makes it easier to provide a canopy support structure that a purchaser can assemble on their own (e.g., as a do-it-yourself kit, or from a number of individually purchased parts).


Some of the notable advantages of canopy support structures that are asymmetric or offset with respect to a pole include 1) their ability to be rotated based on the position of the sun, and 2) the ability to position their poles “out of the way” of the area covered by their canopies. Unfortunately, the dimensions of asymmetric or offset canopy support structures have conventionally been limited by the direct relationship between offset arm height and umbrella height. The techniques used for building the canopy support structures disclosed herein overcome the direct relationship between arm height and umbrella height, and enable the construction of larger asymmetric and offset canopy support structures, thereby enabling a canopy user to better capitalize on the inherent advantages of an asymmetric or offset canopy.


Various types of canopies may be draped over and secured to the canopy support structures disclosed herein. FIGS. 54-57 illustrate how a novel, segmented, self-draining canopy may be attached to the equilattice canopy support structure 100 shown in FIGS. 1-6. To begin, and as illustrated in FIGS. 54 & 55, a plurality of canopy segments 5400, 5402, 5404, 5406, 5408, 5410 may be attached to the canopy support structure 100. Three canopy segments 5400, 5402, 5404 are shown attached to the canopy support structure 100 in FIG. 54. The canopy segments 5400, 5402, 5404 are attached to the canopy support structure 100 by means of pockets 5436, 5438, 5440 that receive the free ends of secondary articulating arms, and by one or more laces 5412, 5414, 5416. Lace 5412 is shown in a broken line for ease of viewing. As shown, the lace 5412 extends from the pole 102, through a grommet or clip on one corner of a first canopy segment 5400, through an eyelet or clip atop the secondary hub 122 (or alternately, through a bracket 2522, 3000 such as the one illustrated in FIG. 25 or 30), through a grommet or clip on one corner of a second canopy segment 5402, and back to pole 102. Each diamond-shaped lacing pattern may be formed separately, or a single cord may provide all of the diamond shaped laces 5412, 5414, 5416. To enable similar attachments of the remaining canopy segments, the canopy segments 5400-5410 may comprise button-holes through which eyelets or clips 5418, 5420, 5422, 5424, 5426, 5428 project. The eyelets or clips 5418-5428 may be attached to the tops of the secondary hubs.



FIG. 55 illustrates attachment of the remaining canopy segments 5406, 5408, 5410. In practice, all of the canopy segments 5400-5410 would be attached more or less in parallel. Preferably, the canopy segments overlay each other like windmill blades, and each diamond-shaped lace extends not only through grommets or clips of two canopy segments (e.g., 5400 & 5402), but through the buttonhole formed in an intermediate canopy segment (e.g., 5406). The canopy segments 5406-5410 have pockets 5442, 5444, 5446 for receiving the ends of respective articulating arms.



FIG. 56 illustrates attachment of a center segment 5430 of the canopy. The center segment 5430 may comprise a hole for receiving a post or stud that attaches a finial or cap 5434 to the cap 188. Cap 188 is shown in FIG. 1, but is covered by the center segment 5430 in FIG. 56. The center segment 5430 may also have a number of grommets or clips attached to the corners of its hexagonal circumference. In this manner, a lace 5432 may be alternately threaded through ones of the grommets or clips attached to the center segment 5430 and ones of the eyelets or clips attached to the tops of the secondary hubs. Alternately, some or all of the canopy segments 5400-5410, 5430 could be stitched, attached with hook and loop fasteners, or otherwise connected at abutting corners, thereby eliminating some or all of the lacing. Additionally, any or all of the canopy segments 5400-5410, 5430 could be provided with a disconnect mechanism designed to 1) quickly release the canopy segment during a high wind event and provide increased venting, which venting tends to lessen forces that might damage the canopy's support structure, and 2) provide easy re-connection of a canopy segment to the canopy support structure 100.



FIG. 57 illustrates how the segments 5400-5410, 5430 of the canopy drape over the various hubs and allow water to self-drain from the canopy when the canopy support structure 100 is in a retracted or partially retracted position. FIG. 57 further illustrates how the operator of a canopy could increase the natural venting potential of the canopy, during moderate winds, by retracting the canopy to varying degrees. Alternatively, a non-segmented canopy may be used in place of the segmented canopy (e.g., in protected areas, where water and debris will not pool in the accordion folds created be the articulating arms, or for uses where the shade structure is brought inside when not in use).



FIG. 58 illustrates an alternate way to provide and lace outer canopy segments 5800, 5802, 5804, 5806, 5808, 5810 to the canopy support structure 100. The canopy segments 5800-5810 overlay each other like windmill blades. Each of the canopy segments 5800-5810 is attached to the canopy support structure 100 by means of a pocket 5838, 5840, 5842, 5844, 5846, 5848 that receives the free end of a respective secondary articulating arm, and by one or more laces 5832, 5836.


The lace 5832 extends between snaps, clips or grommets (e.g., snaps 5812, 5814) at outer corners of the canopy segments 5800-5810 and eyelets or clips atop the secondary hubs of the canopy support structure 100. Alternately, the lace 5832 may extend through brackets 2522, 3000 such as the ones illustrated in FIG. 25 or 30 instead of through eyelets or clips atop secondary hubs.


The lace 5836 extends between snaps, clips or grommets (e.g., grommets 5816, 5818) at inner corners of the canopy segments 5800-5810 and holes in a suspension hub 5834. By way of example, the suspension hub 5834 may take the form of suspension ring 2000 (FIG. 20).


The segmented, self-draining canopies shown in FIGS. 54-58 may be variously modified, depending on the configuration of the canopy support structure for which the canopy is designed.



FIGS. 59-62 illustrate design principles for an alternative primary, secondary or suspension hub configuration. By way of example, the hub 5900 is configured as a primary or secondary hub of a canopy structure such as one of the canopy structures shown in one of FIG. 1-6, 25, 31, 32, 34, 35 or 54-58.


The hub 5900 comprises first and second discs 5902, 5904 (arm-holding discs) that mate to one another and hold therebetween the ends of articulating arms. In some cases, the end of an articulating arm may have a pin or pins therein, which pin or pins (or other protrusions) are oriented perpendicular to the articulating arm. Each arm may be held within corresponding cavities 5906, 5908 in the discs 5902, 5904. To facilitate this, at least one of the cavities 5908 in each corresponding pair of cavities 5906, 5908, and in some cases each of the cavities (as shown), may have a pair of recesses 5934, 5936 for receiving the ends of the pin, pins or other protrusions that extend from the end of an articulating arm. In the case of primary hubs and secondary hubs, the articulating arms may be held within cavities 5906, 5908 that are not oriented in a strictly radial direction, but are rather offset from the radius of the hub 5900. In the case of suspension hubs, the articulating arms may be held within cavities that are oriented in a radial direction, and the discs 5902, 5904 may be duplicates of each other (not shown in FIG. 59).


Additional discs 5910, 5912 (wheel-trapping discs or bearing-trapping discs) may be mated to the exteriors of each of the first and second discs 5902, 5904. All of the discs 5902, 5904, 5910, 5912 may have central pole-receiving cavities 5914, 5916, 5918, 5920 that are adapted to receive a canopy support pole, though in the case of a suspension hub, a disc without a pole-receiving cavity could be used in place of the disc 5910. The exteriors of the first and second discs 5902, 5904, as well as one surface of each of the additional discs 5910, 5912, have cavities 5922, 5924 therein for trapping wheels (e.g., wheels on axels) or roller bearings. At least one of the cavities 5924 in each corresponding pair of cavities 5922, 5924, and in some cases each of the cavities (as shown), may have a pair of recesses 5938, 5940 for receiving an axle or axles that extend from opposite surfaces of a wheel. The wheels or roller bearings may be trapped much the same way as the articulating arms. It is noted that the hub 5900 positions the wheels or roller bearings above and below the ends of the articulating arms. This may provide more positive and controlled movement of the hub 5900 along a pole. Alternately, a single set of wheels could be trapped between the discs 5902 and 5904, in a manner similar to how wheels are trapped between the discs 5902 and 5910 (or discs 5904 and 5912). In the case of a secondary hub, or a stationary suspension hub, the wheels or bearings and additional discs 5910, 5912 need not be used.


All of the discs 5902, 5904, 5910, 5912 may be retained by bolts and nuts (or other retaining mechanisms) that retain the discs 5902, 5904, 5910, 5912 via corresponding holes 5926, 5928, 5930, 5932 in the discs 5902, 5904, 5910, 5912. By way of example, and in one alternate embodiment, the threaded ends of bolts inserted into the holes (e.g., 5930 or 5932) in one of the discs 5910 or 5912 may be received by threaded holes formed in the other of the discs 5910 or 5912.



FIG. 60 illustrates a portion of one end of an articulating arm 6000, such as one end of a primary, secondary, or tertiary articulating arm 6000. The end of the articulating arm 6000 is shown to have a pin or other protrusion 6002 extending therefrom. Another protrusion (not visible in FIG. 60) may extend from the articulating arm 6000 opposite the pin or other protrusion 6002. The pin or protrusion 6002 may be received, for example, by the recess 5934 shown in FIG. 59. Although the cross-section of the articulating arm 6000 is shown to be square, the cross-section could alternately be circular, rectangular or some other shape. In some embodiments, the pins or other protrusions may extend from, or through, a connector connected to the end of an articulating arm.



FIGS. 61 and 62 illustrate an example of a wheel 6100 that may be trapped between the wheel-trapping cavities 5922, 5924 of the discs 5902 and 5910 (or 5904 and 5912). The wheel 6100 may have an axle or axles 6102, 6104 extending from each of two opposite surfaces 6106, 6108. The axles may be trapped by corresponding recesses in one or more of the discs 5902, 5904, 5910, 5912 of the hub (e.g., by the recesses 5938, 5940 in disc 5902).


As shown in FIGS. 63 & 64, an alternate version 6300 of the hub 5900 may be provided with cavities 6342, 6344 for receiving the articulating arms of various canopy configurations, thereby making the hub “universal” for a set of canopy configurations. When not in use for a particular canopy configuration, a cavity pair 6342/6344 may be filled by a cavity plug 6346, thereby giving the hub 6300 a finished look, keeping debris out of the cavities 6342, 6344, etc. By way of example, the hub 6300 includes cavities that enable the hub 6300 to be used as either a primary or secondary hub, in either hexagonal or square canopy support structures (e.g., the canopy support structures shown in one or more of FIG. 1-6, 25, 31-35, 54-58 or 66).


Similarly to the hub 5900, the hub 6300 comprises first and second discs 6302, 6304 (arm-holding discs) that mate to one another and hold therebetween the ends of articulating arms. In some cases, the end of an articulating arm may have a pin or pins therein, which pin or pins (or other protrusions) are oriented perpendicular to the articulating arm. Each arm may be held within corresponding cavities 6306, 6308 in the discs 6302, 6304. To facilitate this, at least one of the cavities 6308 in each corresponding pair of cavities 6306, 6308, and in some cases each of the cavities (as shown), may have a pair of recesses 6334, 6336 for receiving the ends of the pin, pins or other protrusions that extend from the end of an articulating arm. In the case of primary hubs and secondary hubs, the articulating arms may be held within cavities 6306, 6308 that are not oriented in a strictly radial direction, but are rather offset from the radius of the hub 6300. In the case of suspension hubs, the articulating arms may be held within cavities that are oriented in a radial direction (not shown in FIG. 63).


Additional discs 6310, 6312 (wheel-trapping discs or bearing-trapping discs) may be mated to the exteriors of each of the first and second discs 6302, 6304. All of the discs 6302, 6304, 6310, 6312 may have central pole-receiving cavities 6314, 6316, 6318, 6320 that are adapted to receive a canopy support pole, though in the case of a suspension hub, a disc without a pole-receiving cavity could be used in place of the disc 6310. The exteriors of the first and second discs 6302, 6304, as well as one surface of each of the additional discs 6310, 6312, have cavities 6322, 6324 therein for trapping wheels (e.g., wheels on axels) or roller bearings. At least one of the cavities 6324 in each corresponding pair of cavities 6322, 6324, and in some cases each of the cavities (as shown), may have a pair of recesses 6338, 6340 for receiving an axle or axles that extend from opposite surfaces of a wheel. The wheels or roller bearings may be trapped much the same way as the articulating arms. It is noted that the hub 6300 positions the wheels or roller bearings above and below the ends of the articulating arms. This may provide more positive and controlled movement of the hub 6300 along a pole. Alternately, a single set of wheels could be trapped between the discs 6302 and 6304, in a manner similar to how wheels are trapped between the discs 6302 and 6310 (or discs 6304 and 6312). In the case of a secondary hub, or a stationary suspension hub, the wheels or bearings and additional discs 6310, 6312 need not be used.


All of the discs 6302, 6304, 6310, 6312 may be retained by bolts and nuts (or other retaining mechanisms) that retain the discs 6302, 6304, 6310, 6312 via corresponding holes 6326, 6328, 6330, 6332 in the discs 6302, 6304, 6310, 6312. By way of example, and in one alternate embodiment, the threaded ends of bolts inserted into the holes (e.g., 6330 or 6332) in one of the discs 6310 or 6312 may be received by threaded holes formed in the other of the discs 6310 or 6312.



FIG. 65 illustrates an alternate version 6500 of the hub 6300. The hub 6500 differs from the hub 6300 in that the arm-holding disc 5904 is replaced with the arm-holding disc 6502. The arm-holding disc 6502 has cavities 6504, 6506 for receiving articulating arms, which cavities 6504, 6506 mirror the cavities 6306, 6342 in the arm-holding disc 6302 instead of being filled at one end (i.e., at the surface of the disc 6502 facing the wheel-trapping or bearing trapping disc 6312). To fill the extended cavities 6506, the plug 6508 may be lengthened at one end (i.e., at its lower end in FIG. 65). However, in some embodiments, the cavities 6504, 6506 need not be fully filled.



FIG. 66 illustrates another canopy support structure 6600. The canopy support structure 6600 may in some ways be constructed similarly to the canopy support structure 3400 shown in FIGS. 34 & 35. However, the canopy support structure 6600 eliminates the second tier of secondary hubs 3406, as well as the articulating arms 3418, 3420 that extend outward therefrom. The canopy support structure 6600 also differs from the canopy support structure 3400 in that it utilizes primary and secondary hubs (e.g., the hubs in hub pairs 6602, 6604 and 6606) that connect to articulating arms via combinations of radial and offset from radial connections. In contrast, suspension arms may connect to the suspension hub 6608 via purely radial connections. Close up views of the hubs used to construct the canopy support structure 6600 are illustrated in FIGS. 67-78. In some embodiments of the canopy support structure 6600, a fewer number of suspension arms may be used. For example, in some embodiments, only two of the suspension arms 6612, 6614 may be used.



FIG. 67 provides a close-up view of the primary hub pair 6602 of the canopy support structure 6600. The primary hub pair 6602 includes an upper primary hub 6700 and a lower primary hub 6702, each of which has a central pole-receiving cavity for receiving the pole 6610 (i.e., a single support pole that suspends the canopy support structure from a surface or mount). The upper and lower primary hubs 6700, 6702 may be of identical construction, with the lower primary hub 6702 being flipped 180 degrees with respect to the upper primary hub 6700. Each of the hubs 6700, 6702 connects to a set of six primary articulating arms (i.e., primary articulating arms 6704, 6706, 6708, 6710, 6712, and 6714, or their respective scissor-connected mates 6716, 6718, 6720, 6722, 6724, and 6726). Four of the articulating arms connected to each hub 6700, 6702 (i.e., articulating arms 6704, 6706, 6708, 6710, 6716, 6718, 6720 and 6722) are connected to the hubs 6700, 6702 via radial connections, while two of the articulating arms connected to each hub 6700, 6702 (i.e., articulating arms 6712, 6714, 6724 and 6726) are connected to the hubs 6700, 6702 via connections that are offset from radial.



FIGS. 68 & 69 provide further close-up views of the lower primary hub 6700 shown in FIG. 67. The hub 6702 comprises four discs, including first and second arm-holding discs 6800, 6802 and first and second wheel-trapping discs 6804, 6806 (with the lower wheel-trapping disc not visible in FIGS. 68 & 69, but only visible in the exploded view of the hub 6702 shown in FIG. 70). The arm-holding discs 6800, 6802 have six cavities 6808, 6810, 6812, 6814, 6816 and 6818 form therein. Four of the cavities 6808, 6810, 6816, 6818 are oriented in a radial direction with respect to the pole-receiving cavity 6820 formed by the discs 6800, 6802, 6804, 6806, and two of the cavities 6812, 6814 are oriented in an offset from radial direction with respect to the pole-receiving cavity 6820.



FIG. 70 provides an exploded view of the hub 6702. Similar to the hub 5900, the first and second discs 6800, 6802 of the hub 6702 may mate to one another and hold therebetween the ends of articulating arms. In some cases, the end of an articulating arm may have a pin or pins therein, which pin or pins (or other protrusions) are oriented perpendicular to the articulating arm. Each arm may be held within corresponding cavities 7000, 7002 in the discs 6800, 6802. To facilitate this, each of the cavities 7000, 7002 may be bounded by a number of mating surfaces (e.g., surfaces 7004 and 7006 adjacent cavity 7000, or surfaces 7008, 7010, 7012 and 7014 adjacent cavity 7002). When the discs 6800, 6802 are mated to one another, corresponding ones of the mating surfaces (e.g., surfaces 7004 and 7008, or mating surfaces 7006 and 7010) abut each other to define recesses 6822, 6824 for receiving the pins or other protrusions extending from the articulating arms (see FIG. 68). By staggering the locations of the mating surfaces, a single seam at the midpoint of a received pin, where loads are the highest, can be avoided. Alternately, the discs 6800, 6802 may be configured to define recesses (as shown in FIG. 59) or other features for receiving the pins or protrusions extending from articulating arms.


The wheel-trapping discs 6804, 6806 may be mated to the exteriors of each of the first and second discs 6800, 6802. All of the discs 6800, 6802, 6804, 6806 may have central pole-receiving cavities 7016, 7018, 7020, 7022 that are adapted to receive a canopy support pole. The exteriors of the first and second discs 6800, 6802, as well as one surface of each of the additional discs 6804, 6806, have cavities 7024, 7026 therein for trapping wheels (e.g., wheels on axels). At least one of the cavities 7024 in a corresponding pair of cavities, and in some cases each of the cavities, may have a pair of recesses for receiving an axle or axles that extend from opposite surfaces of a wheel. It is noted that the hub 6702 positions the wheels above and below the ends of the articulating arms. This may provide more positive and controlled movement of the hub 6702 along a pole. Alternately, a single set of wheels could be trapped between the discs 6800 and 6802.


All of the discs 6800, 6802, 6804, 6806 may be retained by bolts and nuts (or other retaining mechanisms) that retain the discs 6800, 6802, 6804, 6806 via corresponding holes 7028, 7030, 7032, 7034 in the discs 6800, 6802, 6804, 6806. By way of example, and in one alternate embodiment, the threaded ends of bolts inserted into the holes (e.g., 7032 or 7034) in one of the discs 6804 or 6806 may be received by threaded holes formed in the other of the discs 6804 or 6806.



FIG. 71 provides a close-up view of the secondary hub pair 6604 of the canopy support structure 6600. The secondary hub pair 6604 includes an upper secondary hub 7100 and a lower primary hub 7102. The upper and lower primary hubs 7100, 7102 may be of identical or substantially identical construction, with the lower primary hub 7102 being flipped 180 degrees with respect to the upper primary hub 7100. Each of the hubs 7100, 7102 connects to a set of six articulating arms (i.e., articulating arms 7104, 7106, 7108, 7110, 7112 and 7114, or their respective scissor-connected mates 7116, 7118, 7120, 7122, 7124 and 7126). Four of the articulating arms connected to each hub 7100, 7102 (i.e., articulating arms 7104, 7106, 7112, 7114, 7116, 7118, 7124 and 7126) are connected to the hubs 7100, 7102 via radial connections, while two of the articulating arms connected to each hub 7100, 7102 (i.e., articulating arms 7108, 7110, 7120, 7122) are connected to the hubs 7100, 7102 via connections that are offset from radial. Some of the articulating arms (e.g., 7106, 7108, 7118, 7120) may be primary articulating arms, while other articulating arms may be secondary articulating arms (e.g., 7104, 7110, 7112, 7114) or tertiary articulating arms (e.g., 7116, 7122, 7124, 7126).


Each of the secondary hubs 7100, 7102 may be constructed using a pair of the first and second discs 6800, 6802 used to construct the primary hubs 6700, 6702. Because the secondary hubs 7100, 7102 do not surround the central pole 6610 (FIG. 66), the wheel-trapping discs 6804, 6806 need not be used. The upper secondary hub 7100 may, however, be fitted with a conical cap or other member 7128, attached to the top thereof for the purpose of concealing the hub's pole-receiving hole and wheel cavities. Similarly, the top of the lower secondary hub 7102 and bottoms of both of the secondary hubs 7100, 7102 may be covered by plates (e.g., plate 7130) that conceal the hubs' pole-receiving holes and wheel cavities. Alternately, the conical cap 7128 and plates 7130 need not be used.



FIGS. 72 & 73 provide further close-up views of the upper secondary hub 7100 shown in FIG. 71. FIG. 72 provides a perspective view of the hub 7100 with its top side up, and FIG. 73 provides a perspective view of the hub 7100 with its top side down. The hub 7100 comprises first and second arm-holding discs 6800, 6802, a conical cap 7128, and a plate 7132. The arm-holding discs 6800, 6802 have six cavities 6808, 6810, 6812, 6814, 6816, 6818 formed therein. Four of the cavities 6808, 6810, 6816, 6818 are oriented in a radial direction with respect to the axes of the discs 6800, 6802, and two of the cavities 6812, 6814 are oriented in an offset from radial direction with respect to the axes of the discs 6800, 6802.



FIG. 74 provides an exploded view of the hub 7100. Because the discs 6800 and 6802 have already been described in detail with respect to FIGS. 68-70, they will not be described further. As shown, the conical cap 7128 and plate 7132 may include respective sets of holes, including hole 7400 in the plate 7132, for receiving bolts that retain each of the conical cap, the discs 6800 and 6802, and the plate 7132.



FIGS. 75-77 illustrate various views of the components of a lower secondary hub 7500, which lower secondary hub 7500 may be used in place of the secondary hub 7102 (FIG. 71). The hub 7500 may be constructed using a pair of arm-holding discs 6800, 6802, the construction of which has already been described in detail. However, in contrast to the conical cap 7128 and plate 7132 that cover the pole-receiving hole wheel-trapping cavities of the hub 7100, a plug 7502 or other member having one or more anchors 7508, 7510 attached thereto may be inserted into the pole-receiving hole of the hub 7500. In some embodiments, the plug 7502 may fill (or substantially fill) the pole-receiving hole. The anchors 7508, 7510 may take various forms, such as fins having holes 7508, 7510 therein (as shown), hooks, clips, etc. In some embodiments, an anchor 7508 or 7510 provides an attachment point for a suspension arm or flexible suspension cord (e.g., as an alternative to a suspension arm). This may provide the same benefit as attaching a suspension cord between a suspension hub 6608 and an upper secondary hub 7100, and may be employed as an alternate suspension mechanism for the canopy support structure 6600, or as a further reinforcement to suspension of the canopy support structure 6600. Both suspension mechanisms may provide added support for the secondary hubs and help keep the canopy support structure 6600 level.


The plug 7502 may be attached to the discs 6800, 6802 via the bolts or other mechanisms that hold the discs 6800, 6802 together (e.g., using holes such as hole 7600, as shown in FIG. 76). For added stability, the plug 7502 may include bosses 7700, 7702, 7704 that respectively fit into respective ones of the wheel-trapping cavities formed on the exterior surface of the disc 6800. See, FIG. 77.



FIG. 78 provides a close-up view of the stationary hub 6608 of the canopy support structure 6600. The stationary hub 6608 connects to six articulating suspension arms 7800, 7802, 7804, 7806, 7808, 7810, each of which is connected to the hub 6608 via a radial connection.



FIG. 79 provides a further close-up view of the suspension hub 6608 shown in FIG. 78. The hub 6608 comprises first and second arm-holding discs 7900, 7902, with cavities 7910, 7912, 7914, 7916, 7918 for holding six articulating suspension arms. One of the cavities is not visible in FIG. 79. The hub 6608 also comprises a conical cap 7904, which in some cases may be the same conical cap 7128 used to cap the upper secondary hub 7100.



FIGS. 80 & 81 provide exploded views of the hub 6608. Similar to the hub 5900, first and second arm-holding discs 7900, 7902 of the hub 6608 may mate to one another and hold therebetween the ends of articulating suspension arms. In some cases, the end of an articulating suspension arm may have a pin or pins therein, which pin or pins (or other protrusions) are oriented perpendicular to the articulating arm. Each arm may be held within corresponding cavities 8004, 8006 in the discs 7900, 7902. To facilitate this, each of the cavities 8004, 8006 may be bounded by a pair of elongate slots 8008, 8010 (or more particularly, slots 7906 and 7908 shown in FIG. 79) for receiving the pin, pins or protrusions. In this manner, the articulating suspension arms may slide inward and outward with respect to the axis of the suspension hub 6608, thereby accommodating misalignment of the suspension arm to secondary arm connections with respect to the secondary to tertiary arm connections of the canopy support structure 6600 (with the former connection occurring above the secondary arm and the latter connection occurring below the secondary arm) compared to connections of adjacent primary articulating arms where the suspension and primary arms are connected at a single point.


The discs 7900, 7902 and conical cap 7904 may be retained by bolts and nuts (or other retaining mechanisms) that retain the discs 7900, 7902 and cap 7904 via corresponding holes 8012, 8014, 8016 in the discs 7900, 7902 and cap 7904.



FIG. 82 illustrates an alternate embodiment 8200 of the suspension hub 6608, wherein the discs 7900, 7902 and cap 7904 are replaced by two discs 8202, 8204 and a pole stop 8206 held therebetween. The pole stop 8206 may in some cases take the form of a simple round disc. The cavities and slots of the hub 8200 may be constructed similarly to the cavities and slots of the hub 6608. The discs 8202, 8204 may be joined to one another using bolts and nuts secured through corresponding holes (e.g., holes 8208 and 8210) in the discs 8202, 8204.



FIG. 83 provides an exploded view of another hub 8300. The hub 8300 may be configured for use as either a primary hub or a secondary hub. The hub 8300 has first and second discs 8302, 8304 that mate to one another and hold therebetween the ends of articulating arms having forked ends with pins, rods, or bolts therethrough. The articulating arms may be held in a number of channels 8306/8308, 8310/8312 formed in a number of ribs 8314/8316, 8318/8320 of the hub 8300. Each channel (e.g., channel 8306/8308) may be formed by half channels in corresponding rib portions (e.g., rib portions 8306 and 8308) of the first and second discs 8302, 8304.


Each of the discs 8302, 8304 may have a sleeve 8322, 8324 through the center thereof, such that a pole or cylindrical shaft member (to be described later in this description) may be received thereby.


When the hub 8300 is used as a primary hub, a wheel retention block 8326 may be sandwiched between the discs 8302, 8304. In some cases, as shown, the wheel retention block 8326 may have upper and lower surfaces, a polygonal outer wall, and an inner sleeve in alignment with the sleeves 8322, 8324 of the discs 8302, 8304. In some embodiments, the surfaces and walls of the wheel retention block 8326 may assume other shapes or configurations. Each of the upper and lower surfaces of the wheel retention block 8326 may have a number of cavities 8328, 8330, in alignment with corresponding cavities 8332, 8334 in the first and second discs 8302, 8304, for trapping wheels (e.g., wheels on axels). At least one of the cavities 8328 in a corresponding pair of cavities, and in some cases each of the cavities 8328, 8330, may have a pair of recesses for receiving an axle or axles that extend from opposite surfaces of a wheel. It is noted that the hub 8300 positions the wheels above and below the ends of the articulating arms. This may provide more positive and controlled movement of the hub 8300 along a pole.


When the hub 8300 is used as a secondary hub, the wheel retention block 8326 may be eliminated to provide a lighter hub 8300.


The discs 8302, 8304 may be retained by bolts 8336, 8338, 8340 and nuts 8342, 8344, 8346 (or other retaining mechanisms) that retain the discs 8302, 8304 via corresponding holes in the discs 8302, 8304. In some embodiments, the nuts 8342, 8344, 8346 may have rings attached thereto. When the hub 8300 is used as a primary hub, the rings may be used as attachment points for the cords or pulleys of a block and tackle. When the hub 8300 is used as an upper secondary hub, the rings may be used for fastening a canopy to the hub 8300.


From a production perspective, all of the components of the hubs illustrated in FIGS. 59 and 63-83 may be efficiently and economically produced using a “straight pull” injection molding process. Also, and from a strength perspective, the assembled hubs shown in FIGS. 59 and 63-82 provide double shear connections for each articulating arm, which gives twice the holding capacity of a single shear connection. Still further, all walls of the discs that form a hub may be of uniform thickness, thereby providing even cooling and fewer stress concentrations.



FIGS. 84-88, 89A & 89B illustrate another example of a canopy support structure 8400. The structure 8400 comprises a pole 8402 (i.e., a single support pole that suspends the canopy support structure from a surface or mount), a three-dimensional array 8404 of hub pairs 8434, 8436, 8438, and a plurality of articulating arms or members (e.g., 8406, 8408, 8410, 8412, 8414, 8416). The hubs (e.g., 8418/8420, 8422/8424, 8426/8428) of each hub pair (e.g., 8434, 8436, 8438) move toward each other during extension of the canopy support structure 8400 (as shown in FIGS. 84 & 85), and away from each other during retraction of the canopy support structure 8400 (as shown in FIGS. 86 & 87). FIG. 86 illustrates the canopy support structure 8400 in an intermediate position, about halfway between the structure's fully extended and fully retracted positions, while FIG. 87 illustrates the canopy support structure 8400 in a fully retracted position.


By way of example, the pole 8402 is shown to have a generally triangular cross-section. The triangular cross-section provides the pole with good torsional stability and three longitudinal faces. At least one of the longitudinal faces may have a track 8430 formed therein or thereon (or a track mounted to it). Thus, the track may have an orientation perpendicular to an extended configuration of the canopy support structure 8400. A first of the hub pairs 8434 includes a first hub 8418 and a second hub 8420, each of which is coupled to the pole 8402 and/or the track 8430. The hubs 8418 and 8420 are the system's primary hubs. The first or upper hub 8418 may be coupled to the pole 8402 and/or track 8430 in a fixed position, while the second or lower hub 8420 may be slidably engaged with the track 8430 and movable along the pole 8402. In an alternate embodiment, both the first hub 8418 and the second hub 8420 may be slidably engaged with the track 8430 and movable along the pole 8402.


In alternate embodiments, the pole 8402 may be replaced with a pole having a circular cross-section or a pole having a cross-section of another shape (e.g., rectangular, square, or oval). In these alternate embodiments, the pole may have a track therein, thereon, or coupled thereto, and at least one of the system's primary hubs may be coupled to the track and movable along the pole. The other primary hub may be fixed or movable with respect to the track and pole. Alternately, the pole need not be associated with a track, and at least one of the system's primary hubs may encircle the pole and slide thereon (e.g., as shown in FIG. 43). The other primary hub may be fixed or movable with respect to the track and pole.


In some embodiments, the canopy support structure 8400 may be extended or retracted by means of a user moving (e.g., rolling or sliding) the lower hub 8420 up and down the pole 8402. In some embodiments, the canopy support structure 8400 may be extended or retracted by means of one or more cords, pulleys, a crank and/or another form of mechanism. A crank or pulley mechanism may in some cases be provided internal (or at least partially internal) or external to the pole 8402 and/or track 8430. A mechanical mechanism having a screw gear or worm gear and/or a helically threaded portion may also be mounted internal (or at least partially internal) to the pole 8402 and/or track 8430.


The articulating arms or members 8406, 8408, 8410, 8412, 8414, 8416 connect the hub pairs 8434, 8436, 8438 and include sets of scissor-connected primary articulating arms (e.g., 8406/8408, 8410/8412, 8414/8416). By “scissor-connected”, it is meant that the primary articulating arms are coupled at some point along their length by a pivot mechanism, such as a pin (shown) or mechanical connector (e.g., pivot-connected sleeves or clips for receiving different ones of the scissor-connected primary articulating arms). Each of the hub pairs 8434, 8436, 8438 may be pivotally connected to at least one other of the hub pairs 8434, 8436, 8438 by a respective set of the primary articulating arms 8406/8408, 8410/8412, 8414/8416. By way of example, FIGS. 84-87 illustrate a canopy support structure 8400 where primary articulating arms 8406, 8408, 8410, 8412, 8414, 8416 extend in both radial and circumferential directions (or at least generally so) with respect to the pole 8402. For example, primary articulating arms 8406, 8408, 8410, 8412 may extend in a generally radial direction from the pole 8402 (e.g., from primary hubs 8418, 8420 to secondary hubs 8422, 8424, 8426, 8428 (i.e., those hubs that are coupled to the pole 8402 via articulating arms 8406, 8408, 8410, 8412)) or in a generally circumferential direction (e.g., from secondary hubs 8422, 8424 to secondary hubs 8426, 8428). However, in some canopy support structure embodiments, primary articulating arms may only extend between primary and secondary hubs, and pairs of the secondary hubs 8422/8428, 8424/8426 may be coupled in other ways or not coupled at all (with possible loss of stability). For example, pairs of the secondary hubs 8422/8428, 8424/8426 may be coupled using any of the lateral support members described herein.



FIG. 88 provides an enlarged view of the lower primary hub 8420 and track 8430. As shown, the primary hub 8420 may include a number of flanges 8800, 8802, 8804, 8806. The primary articulating arms 8406 and 8410 may be pinned or otherwise pivotally attached to the flanges 8800, 8802, 8804, 8806. In particular, one primary articulating arm 8406 may be pivotally attached between the flanges 8800 and 8802, and another primary articulating arm 8410 may be pinned or otherwise pivotally attached to the flanges 8804 and 8806. A rear vertical wall of the primary hub 8420 may include an extension having a T-shaped cross-section (not shown). The T-shaped cross-section may engage the track 8430, thereby enabling the primary hub 8420 to slide up and down the track 8430. The rear vertical wall of the primary hub 8420 may also have a number of pulleys 8808, 8810, 8812 attached thereto. Additional pulleys 8814, 8816, 8818 may be attached within the recess of the track 8430 at an upper portion or top of the track 8430. When a cord is appropriately wound around the pulleys 8808, 8810, 8812, 8814, 8816, 8818, an end or ends of the cord may be pulled to raise the lower primary hub 8420 upward along the track 8430.


In contrast to the secondary hubs described earlier in this description, the secondary hubs 8422, 8424, 8426, 8428 (FIG. 84, 89A, 89B) of the canopy support structure 8400 may not provide any connection points for secondary or tertiary articulating arms. Instead, each of the secondary hubs 8422, 8424, 8426, 8428 may include a secondary canopy support structure mount. The hubs 8500/8502 or 8504/8506 of a secondary canopy support structure 8508 or 8510 may be fitted to the secondary canopy support structure mounts of the secondary hubs 8422-8428 as shown in FIGS. 85-87, thereby enabling the secondary canopy support structure 8508 or 8510 to be operated (e.g., extended or retracted) by means of operation (e.g., extension or retraction) of the primary canopy support structure 8400.


A first example of secondary hubs 8422, 8424 including secondary canopy support structure mounts is shown in FIGS. 89A and 89B. FIG. 89A shows a partially exploded view of the secondary hubs 8422, 8424 and secondary canopy support structure mounts, and FIG. 89B shows the secondary hubs 8422, 8424 and secondary canopy support structure mounts as they would be positioned when the primary canopy support structure 8400 to which the secondary hubs 8422, 8424 are mounted is in an extended (i.e., canopy open) position.


As shown in FIG. 89A, and in one embodiment, each secondary hub 8422, 8424 may include two pairs of spaced apart flanges (e.g., flanges 8900/8902 and 8904/8906 for secondary hub 8424). The first and second pairs of flanges 8900/8902, 8904/8906 may respectively receive first and second articulating arms (e.g., a primary articulating arm 8408 connected to a primary hub 8418, and a primary articulating arm 8416 connected to another secondary hub 8426). Each secondary hub 8422, 8424 may also include a sleeve, shaft member, indent, protrusion, and/or other element that functions as a secondary canopy support structure mount. In some cases, the sleeve, shaft member, indent, protrusion, and/or other element of the secondary canopy support structure mount may be oriented perpendicular (or substantially perpendicular) to the flanges of the secondary hub 8422, 8424. In FIGS. 89A & 89B, the secondary canopy support structure mounts include sleeves 8912, 8914 through which cylindrical shaft members 8440, 8442 are inserted. In alternate embodiments, the cylindrical shaft members 8440, 8442 may be integrated with (e.g., molded as part of) the secondary hubs 8422, 8424. In either case, each cylindrical shaft member 8440, 8442 may extend from its secondary hub 8422, 8424 and provide a means for mounting a hub 8500 or 8502 of a secondary canopy support structure 8508.


With respect to an upper one of the secondary canopy support structure mounts, the cylindrical shaft member 8440 may extend above the secondary hub 8424 and serve as a shaft for mounting an upper hub 8500 of a secondary canopy support structure 8508. The cylindrical shaft member 8440 may also extend below the secondary hub 8424, but need not. The upper hub 8500 of the secondary canopy support structure 8508 may have a hole 8908 for receiving the cylindrical shaft member 8440 of the secondary canopy support structure mount.


With respect to a lower one of the secondary canopy support structure mounts, the cylindrical shaft member 8442 may extend below the secondary hub 8424 and serve as a shaft for mounting a lower hub 8502 of the secondary canopy support structure 8508. The cylindrical shaft member 8442 may also extend above the secondary hub 8424, but need not. The lower hub 8502 of the secondary canopy support structure 8508 may have a hole for receiving the cylindrical shaft member 8442 of the secondary canopy support structure mount. In some cases, the cylindrical shaft member 8442 may have a circumferential lip 8910. In these cases, the cylindrical shaft member 8442 may be inserted through the hole in the lower hub 8502 of the secondary canopy support structure 8508, and then through the hole in the secondary hub 8424. The cylindrical shaft member 8442 may then be secured to the secondary hub 8424. In other cases, the cylindrical shaft member may not have the circumferential lip 8910 and may be inserted through the sleeve 8914 in the secondary hub 8502 before being inserted through the hole in the lower hub 8502 of the secondary canopy support structure 8508. In the latter embodiment, an end cap may be attached (e.g., glued, welded, threaded or press fit) to the cylindrical shaft member 8442 to retain the lower hub 8502 of the secondary canopy support structure 8508 on the cylindrical shaft member 8442. The lower hub 8502 of the secondary canopy support structure 8508 may also be retained on the cylindrical shaft member 8442 in other ways.


Each of the cylindrical shaft members 8440, 8442, 8444, 8446 of the secondary canopy support structure mounts may be glued, welded, press fit, screwed, bolted, capped, or otherwise secured to a respective secondary hub 8422, 8424, 8246, 8428 of the primary canopy support structure 8440. Each of the hubs 8500, 8502, 8504, 8506 of the secondary canopy support structures 8508, 8510 may also be glued, welded, press fit, screwed, bolted, or otherwise secured to a respective cylindrical shaft member 8440, 8442, 8444, 8446 of a secondary canopy support structure mount. Alternately, gravity may be used to hold the upper hub 8500, 8504 of the secondary canopy support structure 8508, 8510 in place, and circumferential lips on the cylindrical shaft members 8442, 8446 of the lower secondary canopy support structure mounts, such as the circumferential lip 8910 shown in FIG. 89A, may be used to hold the lower hub 8502, 8506 of the secondary canopy support structures 8508, 8510 in place. In some cases, the secondary canopy support structures 8508, 8510 may be removably attached to the primary canopy support structure 8400.


For ease of construction, each of the secondary hubs 8422, 8424, 8426, 8428 may be of identical or similar construction. Each of the secondary canopy support structure mounts may also be of identical or similar construction. For example, the cylindrical shaft member 8440 of an upper secondary canopy support structure mount may also include a lower circumferential lip 8916, with no detrimental effect. It may be useful, however, to manufacture the lower secondary canopy support structure mount with a longer cylindrical shaft member 8442, so that the cylindrical shaft member 8442 extends sufficiently above the lower secondary hub 8424 to bear against a lower surface of the cylindrical shaft member 8440 of the upper secondary canopy support structure mount. In some cases, the bearing surfaces of the cylindrical shaft members 8440, 8442 may be configured to mesh with one another. For example, the upper surface of the lower cylindrical shaft member 8442 may be concave or cone-shaped, and the lower surface of the upper cylindrical shaft member 8440 may be convex or funnel-shaped, or vice versa.


In some cases, a secondary hub 8422 and its respective secondary canopy support structure mount may be manufactured as an integral unit (e.g., a single injection molded unit), while in other cases, a secondary hub 8422 and its respective secondary canopy support structure mount may be manufactured as separate parts needing assembly. Each secondary hub 8422, 8424, 8426, 8428 and its respective secondary canopy support structure mount may be further manufactured as two or more parts needing to be assembled, or various combinations of secondary hub elements and secondary canopy support structure mount elements may be manufactured as two or more parts.


A second example of secondary hubs 9002, 9004, 9006, 9008 including secondary canopy support structure mounts is described with reference to the primary canopy support structure 9000 shown in FIGS. 90-94. FIG. 90 shows the primary canopy support structure 9000 in an extended position with the secondary canopy support structures 8508, 8510 detached from the primary canopy support structure 9000. FIG. 91 shows the primary canopy support structure 9000 in a closed position, also with the secondary canopy support structures 8508, 8510 detached from the primary canopy support structure 9000. FIG. 92 shows the primary canopy support structure 9000 in an extended position with the secondary canopy support structures 8508, 8510 mounted on the primary canopy support structure 9000. FIG. 93 shows a top plan view of the primary canopy support structure 9000 with the secondary canopy support structures 8508, 8510 mounted on the primary canopy support structure 9000. The canopy support structure 9000 may be constructed largely from components that are the same or similar to those used to construct the canopy support structure 8400 shown in FIGS. 84-88, and therefore the reference numbers used in FIGS. 84-88 are also used, where applicable, in FIGS. 90-94.


As shown in FIG. 94, and in one embodiment, each secondary hub 9004 may include two pairs of spaced apart flanges 9400/9402, 9404/9406 for receiving first and second articulating arms (e.g., a primary articulating arm 8408 connected to a primary hub 8418, and a primary articulating arm 8416 connected to another secondary hub 9006). The flanges 9400, 9402, 9404, 9406 may in some cases extend from a base plate 9408. Each secondary hub 9004 may also include an integral cylindrical shaft member 9412 that functions as a secondary canopy support structure mount. In some cases, the cylindrical shaft member 9412 may be oriented perpendicular (or substantially perpendicular) to the flanges 9400-9406 of the secondary hub 9004. The cylindrical shaft member 9412 may in some cases extend from an end cap 9410 attached to the base plate 9408. Each cylindrical shaft member 9412 may extend from its secondary hub 9004 and provide a means for mounting a hub of a secondary canopy support structure (e.g., hub 8502 of the secondary canopy support structure 8508 shown in FIGS. 90-93.


With respect to an upper one of the secondary canopy support structure mounts (FIG. 90), the cylindrical shaft member 9010 may extend above the secondary hub 9002 and serve as a shaft for mounting an upper hub 8500 of a secondary canopy support structure 8508. The cylindrical shaft member 9010 may also extend below the secondary hub, but need not. The upper hub 8500 of the secondary canopy support structure 8508 may have a hole for receiving the cylindrical shaft member 8500 of the secondary canopy support structure mount.


With respect to a lower one of the secondary canopy support structure mounts (FIG. 94), the cylindrical shaft member 9412 may extend below the secondary hub 9004 and serve as a shaft for mounting a lower hub 8502 of the secondary canopy support structure 8508 (FIG. 90). The cylindrical shaft member 9412 may also extend above the secondary hub 9004, but need not. The lower hub 8502 of the secondary canopy support structure 8508 may have a hole for receiving the cylindrical shaft member 9412 of the secondary canopy support structure mount.


Each of the hubs 8500, 8502, 8504, 8506 of the secondary canopy support structures 8508, 8510 may be glued, welded, press fit, screwed, bolted, or otherwise secured to the cylindrical shaft members (e.g., cylindrical shaft members 9010 and 9412) of secondary canopy support structure mounts. Alternately, gravity may be used to hold the upper hubs 8500, 8504 of the secondary canopy support structures 8508, 8510 in place. In some cases, the secondary canopy support structures 8508, 8510 may be removably attached to the primary canopy support structure 9000.


For ease of construction, each of the secondary hubs 9002, 9004, 9006, 9008 may be of identical or similar construction, with lower ones of the secondary hubs 9004, 9008 flipped 180 degrees with respect to upper ones of the secondary hubs 9002, 9006.


Each of the secondary canopy support structures 8508, 8510 may in some cases be a more or less conventional canopy support structure, but without a pole, and without secondary and tertiary articulating arm sets on at least a portion thereof. In some cases, the angle between secondary and tertiary articulating arm sets of the secondary canopy support structures 8508, 8510 may differ from the angle between the scissor-connected primary articulating arms 8406, 8408, 8410, 8412, 8414, 8416 of the primary canopy support structure (e.g., the primary canopy support structure 8400 (FIG. 85) or 9000 (FIG. 93)). For example, in FIG. 93, the angle between secondary and tertiary articulating arm sets 9300, 9302 is approximately 45 degrees, whereas the angle between scissor-connected primary articulating arms 8408, 8410 is approximately 60 degrees.


In some embodiments of the canopy support structures depicted in FIGS. 85-88 and 90-93, the primary canopy support structure 8400 (or 9000) and secondary canopy support structures 8508, 8510 may be constructed as a singular canopy support structure. Thus, for instance the hubs 8500-8506 of the secondary canopy support structures 8508, 8510 shown in FIGS. 85-88 may be fixed to, or formed as part of, the secondary hubs 8422-8428 of the primary canopy support structure 8400. In these embodiments, the secondary canopy support structure mounts may be used as part of the singular canopy support structure or the secondary canopy support structure mounts may be dispensed with in favor of having secondary hubs 8422-8428 formed of fewer parts.


Although the primary canopy support structures 8400, 9000 shown in FIGS. 84-88 and 90-93 do not utilize suspension hubs or suspension arms, suspension hubs or suspension arms such as those described with reference to FIGS. 5, 15-17 & 43, and elsewhere in this description, may be utilized in conjunction with either of the primary canopy support structures 8400, 9000 shown in FIGS. 84-88 and 90-93. In this regard, FIGS. 95-97 illustrate a modified version of the primary canopy support structure 8400 shown in FIGS. 84-88. In the primary canopy support structure 9500 shown in FIGS. 95-97, a suspension hub 9510 is mounted to the top of the track 8430 formed in the pole 8402, and the upper primary hub 8418-a is converted to a movable primary hub. By way of example, the suspension hub 9510 is fixed to the top of the pole 8402. In other embodiments, the suspension hub 9510 could be fixed at some other location on the pole 8402, or could be coupled to (e.g., slidably engaged with) the track 8430 and movable along the pole 8402. The suspension hub 9510 could also be coupled to the track 8430 in a fixed position or be movable between fixed positions along the track 8430. Suspension arms 9512, 9514 may in some cases extend from the suspension hub 9510 to the pivot points of the scissor-connected primary articulating arms 8406/8408, 8410/8412. The upper primary hub 8418-a may be constructed similarly to the lower primary hub 8420 but be flipped 180 degrees.


The primary canopy support structure 9500 shown in FIGS. 95-97 also differs from the primary canopy support structure 8400 shown in FIGS. 84-88 in that the cylindrical shaft members 9502, 9504 of its upper secondary canopy support structure mounts serve as telescoping masts. In particular, the cylindrical shaft members 9502, 9504 of the secondary canopy support structure mounts may be longer than those shown in FIGS. 84-88, 89A & 89B and include upper and lower circumferential lips or end caps (or other stop members). The upper and lower circumferential lips or end caps enable the cylindrical shaft members 9502, 9504 to slide within their respective sleeves in their respective secondary hubs. FIG. 95 shows the positions of the cylindrical shaft members 9502, 9504 when the primary canopy support structure 9500 is in its extended position. In this position, the lower surfaces of the cylindrical shaft members bear against the upper surfaces of the cylindrical shaft members of the lower secondary hubs and are pushed upward and out of the upper secondary hubs. FIGS. 96 & 97 show the positions of the cylindrical shaft members 9502, 9504 when the primary canopy support structure 9500 is, respectively, in a retracted (FIG. 97) or partially retracted (FIG. 96) position. In these positions, gravity causes the cylindrical shaft members 9502, 9504 to slide downward within their respective sleeves in their respective secondary hubs. The cylindrical shaft members 9502, 9504, and the lengths thereof, can be used to affect the drape of a canopy attached to the primary and/or secondary canopy support structures 9500, 8508, 8510. In some cases, the cylindrical shaft members 9502, 9504 can be used to simply push up and elevate a portion of a canopy. Alternately, a canopy could be attached to the cylindrical shaft members 9502, 9504 (e.g., between each cylindrical shaft member 9502, 9504 and a corresponding cap or finial 9506, 9508), and the cylindrical shaft members 9502, 9504 can push or pull the canopy to affect the canopy's drape.


In some embodiments, the primary canopy support structures 8400, 9000, 9500 shown in any of FIG. 84-88, 90-94 or 95-97 may be attached to a wall, a fence, or a side of a building. This may be done by attaching the pole 8402 and its associated track 8430 to the wall, fence, or building side (using suitable brackets, for example) or by attaching the track 8430 to (or forming the track 8430 in) the wall, fence or building side.


While illustrative and presently preferred embodiments of the invention have been described in detail herein, it is to be understood that the inventive concepts may be otherwise variously embodied and employed and are intended to represent a spectrum of design variations and versatility provided by the invention. The appended claims are intended to be construed to include such variations, except as limited by the prior art.

Claims
  • 1. A canopy support structure, comprising: a support pole having a track therein, thereon, or coupled thereto, wherein the track extends in a longitudinal direction along the support pole;a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, the hubs of each hub pair being movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure, wherein the primary hub pair includes a first hub and a second hub,wherein each of the first hub and the second hub is coupled to the support pole,wherein at least one of the first hub and the second hub is slidably engaged with the track and movable along the support pole; andwherein the at least two secondary hub pairs comprises a first secondary hub pair, each hub of the first secondary hub pair comprises a respective secondary canopy support structure mount, and the secondary canopy support structure mounts are configured to receive a third hub pair of a secondary canopy support structure and axially align the third hub pair with the first secondary hub pair; anda plurality of articulating arms connecting the primary and secondary hub pairs, wherein the articulating arms include sets of scissor-connected primary articulating arms, andwherein each of the primary and secondary hub pairs is pivotally connected to at least one other of the primary or secondary hub pairs by a respective set of the scissor-connected primary articulating arms.
  • 2. The canopy support structure of claim 1, wherein the first hub is coupled to the support pole in a fixed position, and wherein the second hub is slidably engaged with the track and movable along the support pole.
  • 3. The canopy support structure of claim 1, wherein the first hub is coupled to the track in a fixed position, and wherein the second hub is slidably engaged with the track and movable along the support pole.
  • 4. The canopy support structure of claim 1, wherein each of the first hub and the second hub is slidably engaged with the track and movable along the support pole.
  • 5. The canopy support structure of claim 1, wherein the support pole has a generally triangular cross-section, wherein the generally triangular cross-section has three longitudinal faces, and wherein the track is in, on, or mounted to a first of the longitudinal faces.
  • 6. The canopy support structure of claim 1, wherein the support pole has a circular cross-section.
  • 7. The canopy support structure of claim 1, wherein a first set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to the first secondary hub pair, wherein a second set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to a second secondary hub pair, and wherein a third set of the scissor-connected primary articulating arms extends in a generally circumferential direction with respect to the support pole to couple the first and second secondary hub pairs.
  • 8. The canopy support structure of claim 1, wherein a first set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to the first secondary hub pair, and wherein a second set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to a second secondary hub pair, the canopy support structure further comprising: a plurality of lateral support members connected between the first and second sets of the scissor-connected primary articulating arms.
  • 9. The canopy support structure of claim 8, wherein the lateral support members are rigid.
  • 10. The canopy support structure of claim 8, wherein the lateral support members are flexible.
  • 11. The canopy support structure of claim 1, wherein the first hub is a lower primary hub and has a first number of pulleys attached thereto, and wherein the track has a second number of pulleys attached thereto, the first number of pulleys and the second number of pulleys configured to have a cord wound thereon, the cord usable to raise the lower primary hub upward along the track.
  • 12. The canopy support structure of claim 1, wherein the at least two secondary hub pairs comprises a second secondary hub pair, and wherein each hub of the second secondary hub pair comprises a respective secondary canopy support structure mount.
  • 13. The canopy support structure of claim 1, further comprising the secondary canopy support structure secured to the secondary canopy support structure mounts of the hubs of the first secondary hub pair, wherein extension of the canopy support structure extends the secondary canopy support structure, and wherein retraction of the canopy support structure retracts the secondary canopy support structure.
  • 14. The canopy support structure of claim 1, wherein at least one of the secondary canopy support structure mounts comprises a shaft extending from an associated hub of the first secondary hub pair.
  • 15. The canopy support structure of claim 1, wherein at least one of the secondary canopy support structure mounts comprises an indent in an associated hub of the first secondary hub pair.
  • 16. The canopy support structure of claim 1, wherein each hub of the at least two secondary hub pairs comprises a respective secondary canopy support structure mount.
  • 17. The canopy support structure of claim 1, further comprising: a suspension hub on the support pole; andat least one tether coupled between the suspension hub and the articulating arms.
  • 18. The canopy support structure of claim 17, wherein the at least one tether includes a rigid tether.
  • 19. The canopy support structure of claim 17, wherein the at least one tether includes a flexible tether.
  • 20. The canopy support structure of claim 1, wherein the hubs of the three-dimensional array of hubs are asymmetrically distributed about the pole.
  • 21. A canopy support structure, comprising: a support pole having a track therein, thereon, or coupled thereto, wherein the track extends in a longitudinal direction along the support pole;a suspension hub slidably engaged with the track and movable along the support pole;a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, the hubs of each hub pair being movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure, wherein the primary hub pair includes a first hub and a second hub,wherein each of the first hub and the second hub is coupled to the support pole,wherein at least one of the first hub and the second hub is slidably engaged with the track and movable along the support pole; andwherein the at least two secondary hub pairs comprises a first secondary hub pair, each hub of the first secondary hub pair comprises a respective secondary canopy support structure mount, and the secondary canopy support structure mounts are configured to receive a third hub pair of a secondary canopy support structure;a plurality of articulating arms connecting the primary and secondary hub pairs, wherein the articulating arms include sets of scissor-connected primary articulating arms, andwherein each of the primary and secondary hub pairs is pivotally connected to at least one other of the primary or secondary hub pairs by a respective set of the scissor-connected primary articulating arms; andat least one tether coupled between the suspension hub and the articulating arms.
  • 22. A canopy support structure, comprising: a track having an orientation perpendicular to an extended configuration of the canopy support structure;a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, the hubs of each hub pair being movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure, wherein the primary hub pair includes a first hub and a second hub,wherein each of the first hub and the second hub is coupled to the track,wherein at least one of the first hub and the second hub is slidably engaged with the track and movable along the track; andwherein the at least two secondary hub pairs comprises a first secondary hub pair, and each hub of the first secondary hub pair comprises a respective secondary canopy support structure mount having a sleeve, shaft, indent, or protrusion that extends parallel to the track and is configured to receive a hub of a third hub pair of a secondary canopy support structure; anda plurality of articulating arms connecting the primary and secondary hub pairs, wherein the articulating arms include sets of scissor-connected primary articulating arms, andwherein each of the primary and secondary hub pairs is pivotally connected to at least one other of the primary or secondary hub pairs by a respective set of the scissor-connected primary articulating arms.
  • 23. The canopy support structure of claim 22, wherein a first set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the track to couple the primary hub pair to the first secondary hub pair, wherein a second set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the track to couple the primary hub pair to a second secondary hub pair, and wherein a third set of the scissor-connected primary articulating arms extends in a generally circumferential direction with respect to the track to couple the first and second secondary hub pairs.
  • 24. A canopy support structure, comprising: a single support pole;a three-dimensional array of hub pairs including a primary hub pair and at least two secondary hub pairs, the hubs of each hub pair being movable toward each other during extension of the canopy support structure and away from each other during retraction of the canopy support structure, wherein the primary hub pair includes a first hub and a second hub,wherein each of the first hub and the second hub is coupled to the support pole,wherein at least one of the first hub and the second hub is movable along the support pole,wherein the at least two secondary hub pairs comprises a first secondary hub pair and a second secondary hub pair, andwherein each hub of the first secondary hub pair comprises a respective secondary canopy support structure mount, and the secondary canopy support structure mounts are configured to axially receive a third hub pair of a secondary canopy support structure; anda plurality of articulating arms connecting the primary and secondary hub pairs, wherein the articulating arms include sets of scissor-connected primary articulating arms, andwherein each of the primary and secondary hub pairs is pivotally connected to at least one other of the primary or secondary hub pairs by a respective set of the scissor-connected primary articulating arms.
  • 25. The canopy support structure of claim 24, wherein a first set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to the first secondary hub pair, wherein a second set of the scissor-connected primary articulating arms extends in a generally radial direction with respect to the support pole to couple the primary hub pair to the second secondary hub pair, and wherein a third set of the scissor-connected primary articulating arms extends in a generally circumferential direction with respect to the support pole to couple the first secondary hub pair to the second secondary hub pair.
  • 26. The canopy support structure of claim 24, wherein each hub of the second secondary hub pair comprises a respective secondary canopy support structure mount.
PCT Information
Filing Document Filing Date Country Kind
PCT/US2014/056168 9/17/2014 WO 00
Publishing Document Publishing Date Country Kind
WO2015/042195 3/26/2015 WO A
US Referenced Citations (25)
Number Name Date Kind
23503 Selden Apr 1859 A
2143978 Eeles Jan 1939 A
5263505 Yeom Nov 1993 A
5634483 Gwin Jun 1997 A
5927310 Lin Jul 1999 A
6070602 Ling Jun 2000 A
6173721 Mery Jan 2001 B1
6230727 Chen May 2001 B1
6354315 Liu Mar 2002 B1
6386214 Clarke May 2002 B1
6601599 Carter Aug 2003 B2
6868858 Suh Mar 2005 B2
6929017 Byun Aug 2005 B2
7628166 Carter Dec 2009 B2
7900643 Ma Mar 2011 B2
8240322 Chang Aug 2012 B2
8511327 Sun Aug 2013 B2
9303427 Arndt Apr 2016 B1
9901149 Arndt Feb 2018 B2
20040163691 Ma Aug 2004 A1
20070017561 Kuo Jan 2007 A1
20070051396 Koehn Mar 2007 A1
20070204891 Zubyk Sep 2007 A1
20130340800 Liu Dec 2013 A1
20150284973 Arndt et al. Oct 2015 A1
Foreign Referenced Citations (10)
Number Date Country
944147 Jun 1956 DE
102006053270 May 2008 DE
1500758 Jan 2005 EP
3012728 May 2015 FR
1032315 Jun 1966 GB
1537174 Dec 1978 GB
2347515 Feb 2009 RU
WO 08114305 Sep 2008 WO
WO 10078829 Jul 2010 WO
WO 13185268 Dec 2013 WO
Non-Patent Literature Citations (1)
Entry
International Search Report dated Dec. 31, 2014, PCT/US2014/056168, 2 pages.
Related Publications (1)
Number Date Country
20160222693 A1 Aug 2016 US
Provisional Applications (1)
Number Date Country
61879097 Sep 2013 US