SYSTEMS AND METHODS FOR BICYCLE STORAGE WITH ASYMMETRICAL, SHARED INDIVIDUAL STORAGE SPACES

Abstract

A bicycle storage unit has a support base with parallel, horizontal first and second base frame bars spaced apart from each other; and vertical, parallel support posts extending perpendicularly from the base bottom frame bars, for suspending bicycles in a double row along the length of the unit. Adjacent support posts in a first and second set of support posts are spaced apart on the first and second side, respectively, to allow at least part of a bicycle to be passed therebetween for suspending from one of the support posts in the second and first set, respectively. One of the first set of support posts is positioned on the first base frame bar at a first post location that is across the space between the first side and the second side from a second post location on the second base frame bar between adjacent support posts in the second set.

Claims

1. A bicycle storage unit comprising: a support base having generally parallel and horizontal first and second base frame bars spaced apart from each other and secured directly or indirectly to each other; a plurality of generally vertical and parallel support posts extending perpendicularly from the base frame bars, wherein the support posts are arranged on the first and second base frame bars to store a selected number of bicycles in a double row along the length of the unit, with a first row of bicycles on a first side of the bicycle storage unit and a second row of bicycles on a second side of the bicycle storage unit, wherein a first set of support posts are secured to the first base frame bar to form the first side, and a second set of support posts are secured to the second base frame bar to form the second side, wherein one of the first set of support posts is arranged on the first base frame bar to receive a first bicycle to be suspended therefrom, and one of the second set of support posts is arranged on the second base frame bar to receive a second bicycle to be suspended therefrom, wherein adjacent support posts in the first set are spaced apart on the first side a selected first distance to allow at least a portion of the second bicycle to be passed therebetween for receiving by the one of the second set of support posts; wherein adjacent support posts in the second set are spaced apart on the second side a selected second distance to allow at least a portion of the first bicycle to be passed therebetween for receiving by the one of the first set of support posts; and wherein the one of the first set of support posts is positioned on the first base frame bar at a first post location, which is across a space between the first side and the second side from a second post location on the second base frame bar, with the second post location positioned between the adjacent support posts in the second set.

2. The bicycle storage unit of claim 1, wherein the second post location is asymmetrically spaced between the adjacent support posts in the second set across the space between the first side and the second side.

3. The bicycle storage unit of claim 1, wherein the space between the first side and the second side further comprises an extent of distance that the first bicycle is movable across the space from the second side without interfering with components of one or more bicycles suspended from the support poles on the second side.

4. The bicycle storage unit of claim 3, wherein the extent of distance that the first bicycle is movable across the space from the second side is based on dimensions of the first bicycle.

5. The bicycle storage unit of claim 3, wherein the extent of distance is selected as a length across the space from the second side, at which, when the first bicycle is moving through the adjacent support posts in the second set: one pedal of the first bicycle is positioned behind one of the adjacent support posts in the second set, and another pedal of the first bicycle is positioned within the space between the first side and the second side.

6. The bicycle storage unit of claim 1, further wherein the first post location is positioned such that, when the first bicycle is moving across the space through the adjacent support posts in the second set, and a wheel of the first bicycle is in line with the first post location: one pedal of the first bicycle is positionable behind one of the adjacent support posts in the second set, and another pedal of the first bicycle is positionable within the space between the first side and the second side.

7. The bicycle storage unit of claim 1, further comprising hoisting systems associated with the support posts, wherein a selected support post has a selected hoisting system associated therewith and is arranged to receive a selected bicycle and lift the selected bicycle into vertical storage on the selected support post.

8. The bicycle storage unit of claim 1, further comprising bicycle hanging components, wherein a selected hanging component is secured to an inwardly facing surface of a selected support post, the inwardly facing surface comprising a surface of the selected support post that faces the space between the first side and the second side, and wherein the bicycle hanging components are positioned at selected heights on the support posts to allow for bicycles to be suspended at varying distances from the support base.

9. The bicycle storage unit of claim 7, further comprising a plurality of hanging component position types associated with the support posts, wherein one characteristic of the hanging component position types comprises a vertical distance from the upper surface of a selected support post, wherein the selected support post is assigned a hanging component position type based on a desired vertical location of the selected hanging component on the selected support post, and wherein the second post position is selected to be geometrically closer to one of the adjacent support posts in the second set than to the other of the adjacent support posts in the second set, and is based on a second hanging component position type associated with the one of the adjacent support posts and a first hanging component position type associated with the one of the first set of support posts.

10. The bicycle storage unit of claim 8, wherein the one of the first set of support posts and the one of the adjacent support posts have the same hanging component position type.

11. A method comprising: forming a support base for a bicycle storage unit, the support base having generally parallel first and second base legs spaced apart from each other; extending a plurality of generally vertical and parallel support posts perpendicularly from the first and second base legs, wherein the support posts are arranged to store a selected number of bicycles in a double row along the length of the unit, with a first row of bicycles on a first side of the bicycle storage unit and a second row of bicycles on a second side of the bicycle storage unit, and wherein the extending further comprises: forming the first side by securing a first set of support posts to the first base frame bar, wherein the first set of support posts is arranged on the first base frame bar to receive a first bicycle to be suspended from one of the first set of support posts, forming the second side by securing a second set of support posts to the second base frame bar, wherein the second set of support posts is arranged on the second base frame bar to receive a second bicycle to be suspended from one of the second set of support posts, spacing adjacent support posts in the first set apart on the first side a selected first distance to allow at least a portion of the second bicycle to be passed therebetween; spacing adjacent support posts in the second set apart on the second side a selected second distance to allow at least a portion of the first bicycle to be passed therebetween; and positioning the one of the first set of support posts on the first base frame bar at a first post location that is across the space between the first side and the second side from a second post location on the second base frame bar between the adjacent support posts in the second set.

12. The method of claim 11, further comprising asymmetrically spacing the one of the first set of support posts between the adjacent support posts in the second set across the space between the first side and the second side.

13. The method of claim 11, further comprising limiting an extent of distance from the second side toward the first side in which the first bicycle is movable across the space between the first side and the second side.

14. The method of claim 13, wherein limiting the extent of distance further comprises preventing movement of the first bicycle into at least one region in which components of one or more bicycles suspended from the support poles on the second side may be present.

15. The method of claim 13, wherein limiting the extent of distance further comprises capping the extent of distance to a length across the space from the second side at which, when the first bicycle is moving through the adjacent support posts in the second set: one pedal of the first bicycle is positioned behind one of the adjacent support posts in the second set, and another pedal of the first bicycle is positioned within the space between the first side and the second side.

16. The method of claim 13, further comprising basing an extent of distance that the first bicycle is movable across the space from the second side on dimensions of the first bicycle.

17. The method of claim 11, further comprising positioning first post location such that, when the first bicycle is moving across the space through the adjacent support posts in the second set, and a wheel of the first bicycle is in line with the first post location: one pedal of the first bicycle is positioned behind one of the adjacent support posts in the second set, and another pedal of the first bicycle is positioned within the space between the first side and the second side.

18. The method of claim 11, further comprising lifting a selected bicycle into vertical storage on a selected support post with a selected hoisting system associated with the selected support post.

19. The method of claim 11, further comprising: securing hanging components to support posts, with a selected hanging component secured to an inwardly facing surface of a selected support post, the inwardly facing surface comprising a surface of the selected support post that faces the space between the first side and the second side, and staggering the bicycle hanging components at selected heights on the support posts to allow for bicycles to be suspended at varying distances from the support base.

20. The method of claim 16, further comprising: associating a plurality of hanging component position types with the support posts, with a characteristic of the hanging component position types comprising a vertical distance from the support base, assigning a hanging component position type to a selected support post based on a desired vertical location of the selected hanging component on the selected support post, and selecting the second post position to be geometrically closer to one of the adjacent support posts in the second set than to the other of the adjacent support posts in the second set, with the selecting being based on a second hanging component position type associated with the one of the adjacent support posts and a first hanging component position type associated with the one of the first set of support posts.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0040] FIG. 1 is a perspective view of a first conventional hanging bicycle storage unit 10 (also known as the “unit 10”), the unit 10 secured to a wall 15 and arranged to receive and store multiple bicycles 50 in a single row along the wall 15;

[0041] FIG. 2A is a perspective view of a second conventional hanging bicycle storage unit 20 (also known as the “unit 20”) disposed on a floor 25, the unit 20 arranged to store multiple bicycles 50 in a double row;

[0042] FIG. 2B is a diagrammatic top plan view of the unit 20 of FIG. 2A, showing in dashed lines the width of the footprint of the bicycle 50 parked at the unit 20 front wheel to front wheel and in solid lines the storing width of the unit 20;

[0043] FIG. 3A is a side perspective view of a bicycle storage unit 300 of an illustrative but not necessarily preferred embodiment of the current invention, is which certain bicycles 50 are suspended and stored in asymmetrical, shared individual storage spaces thereon, using hoisting systems 60 attached to the support posts, respectively;

[0044] FIG. 3B is a front perspective view of the bicycle storage unit 300 shown in FIG. 3A, with bicycles 50 suspended and stored thereon using hoisting systems 60 attached to the support posts;

[0045] FIG. 4 is a top plan view of a diagrammatic representation of the bicycle storage unit 300;

[0046] FIGS. 5A-5E are views of a diagrammatic representation of a second illustrative but not necessarily preferred embodiment of a bicycle storage unit 500, which is arranged to store three bicycles, two bicycles on one side of the unit and one bicycle on the other, with: [0047] FIG. 5A being a top plan view of the unit 500, [0048] FIG. 5B being a front perspective view of the unit 500, [0049] FIG. 5C being a diagrammatic rear elevation view of the unit 500, [0050] FIG. 5D being a diagrammatic side elevation view of the unit 500, and [0051] FIG. 5E being a rear perspective view of a unit 500 to which hoisting systems are attached;

[0052] FIG. 6 is a side perspective view and FIG. 7 is a diagrammatic side elevation view of other illustrative but not necessarily preferred embodiments of a bicycle storage unit of the current invention;

[0053] FIGS. 8A-8C are diagrammatic rear elevation views of a diagrammatic representation of the unit 500 in operation, with: [0054] FIG. 8A showing the unit 500 empty of bicycles, [0055] FIG. 8B showing the unit 500 storing one bicycle, and [0056] FIG. 8C showing the unit 500 storing two bicycles;

[0057] FIG. 9A is a more detailed top plan view of the unit 500 shown in FIG. 5B, illustrating, for the unit 500, the positioning of hanging components 517a, 527a, 537a and the vertical support posts 511, 521, 531 relative to each other to maximize the distance ‘A’ between the hanging components on the support posts 511, 521 and to minimize the loading width of the bicycle storage unit 500;

[0058] FIG. 9B is a more simplified top plan view of the unit 500 shown in FIG. 7A, illustrating the positioning of the hanging components 517a, 527a, 537a and the vertical support posts 511, 521, 531;

[0059] FIGS. 10A and 10B are simplified diagrammatic rear elevation views of the second conventional hanging bicycle storage unit 20 and the hanging bicycle storage unit 500, respectively, comparing the footprints of the fully loaded units 20, 500, in particular, the minimum storing widths of the units 20, 500 that will accommodate the loading of a bicycle on either side of the units; and

[0060] FIG. 11 are diagrammatic side elevation views of a bicycle being loaded onto hanging bicycle storage units 502, 504, with each bicycle having the largest dimensions of bicycles anticipated to be stored in the units 502, 504.

DETAILED DESCRIPTION

[0061] Reference will now be made in detail to the present exemplary embodiments, examples of which are illustrated in the accompanying drawings. Wherever possible, the same reference numbers will be used throughout the drawings to refer to the same or like parts.

[0062] A bicycle storage unit 300 according to the present invention will now be described in detail with reference to FIGS. 3A, 3B, of the accompanying drawings. The unit 300, which may contain bicycle storage for a fee, may be used to temporarily, securely, and releasably park and store bicycles, such as bicycles 50. In certain embodiments, the unit may be a standalone rack open to the air (as shown in FIGS. 3A, 3B), or a covered container, storage house, storage condo, or other bicycle storage facility with roofs and/or side walls. A unit 300 may be located at any convenient location, such as apartment complexes, office parks, or public transportation stops or stations, on sidewalks, or in parks or on-street parking or parking lots or in tourist areas.

[0063] The unit 300 may have a generally horizontal top frame bar 312, generally horizontal bottom frame bars 314, 324; a generally vertical front frame bar 316, a generally vertical rear frame bar 326, and generally horizontal base legs 318, 328, which are all joined together to form a generally rectangular frame 310 with a stable support base and forming a stable support base: [0064] the base legs 318, 328 spaced apart from and generally parallel with each other; [0065] the bottom frame bars 314, 324 spaced apart from and generally parallel with each other and attached generally perpendicularly at their ends to the base legs 318, 328, respectively; [0066] the front frame bar 316 spaced apart from and generally parallel with the rear frame bar 326 and attached generally perpendicularly at their bottom ends to the base legs 318, 328, respectively, with a central plane (also not shown) that may be visualized between the front frame bar 316 and the rear frame bar 326 and that bisects the unit 300; and [0067] the top frame bar 312 generally perpendicular with and attached at its ends to the top ends of the frame bars 316, 326, the top frame bar 312 generally parallel with the bottom frame bars 314, 324.

[0068] It is to be understood that the bars so described may be of any suitable geometry and material so long as the resulting frame is stable; and the support base may be securable to the floor, or securable to both the floor and a ceiling, at the discretion of the unit designer. Further, it may be understood that, instead of base legs, the support base may be formed of any suitable conventional design and materials, such as rectangular or circular planes or blocks.

[0069] In certain embodiments, the unit 300 may be enclosed to protect the unit and the bicycles stored thereon completely from the elements; in other embodiments, the unit may be partially enclosed to allow ventilation while still providing partial protection from the elements. In further embodiments, vents, windows that open, or other ventilation features may be provided in the enclosure walls, to be opened or closed automatically or manually at the option of the designers and/or the facilities management.

[0070] The unit 300 may also have generally vertical support posts 311 perpendicularly secured between the top frame bar 312 and the bottom frame bars 314, 324; and the unit 300 have generally vertical support posts 321 perpendicularly secured between the top frame bar 312 and the bottom frame bar 324. In the illustrative but not necessarily preferred embodiment of FIGS. 3A, 3B, and as shown in FIG. 3A, the support posts, also known as posts, support poles, or poles, may define the storage spaces for the bicycles, with the unit 300 having a hoisting system, such as a conventional hoisting system 60, associated with each of the support posts in order to provide a hoisting system 60 for each of the multiple bicycles 50 to be received and lifted into storage in the double row along the length of the unit 300.

[0071] The hoisting system 60, shown representationally in FIG. 3A, may be any conventional hoisting system. It may have components such as a hoist 62, which may be attached vertically on the inwardly facing surface of a support post, the inwardly facing surface facing the central plane of the unit 300, with hoisting system 60 also having a hoisting lever 64, which may be attached at one end to the hoist 62 and at its other end to a knob 66.

[0072] The bottom ends of the support posts 311, 321 may be directly secured to the top surface of the bottom frame bars 314, 324, respectively, for example through welding or with bolts. As shown in FIG. 3B, the top ends of the support posts 311, 321, spaced a selected distance from the top frame bar 312, may be secured to the sides of the top frame bar 312 through a series of spacer bars 313, 323 secured between the side surfaces of the top frame bar 312, for example through welding or with bolts. Alternatively, as shown in FIG. 4, the top end of a support post 311, 321 may be secured to the top frame bar 312 through an elbow connector 315, secured at one end to the top surface of the top frame bar 312, for example as shown with bolts, and at its other end to a surface of a support post 311, 321. In this embodiment, the elbow connectors 315 function as spacer bars 313, 323.

[0073] FIGS. 5A-5E show a second illustrative but not necessarily preferred embodiment of a hanging bicycle storage unit 500, which may be seen as a simplified version of the unit 300, with two spaces available for storing bicycles on one side of the unit and one space available for storing a bicycle on the other side, and without a top frame element and side frame elements.

[0074] Turning to FIG. 5A and FIG. 5B, similarly to the unit 300, the unit 500 may have generally horizontal bottom frame bars 514, 524 and generally horizontal base legs 518, 528, which are all joined together to form a stable support base, with the bottom frame bars 514, 524 spaced apart from each other and the ends of the bottom frame bars 514 attached perpendicularly to the base legs 518, 528. Spacer bars 519, 529 may be attached perpendicularly between the bottom frame bars 514, 524 to further stabilize the support base.

[0075] The unit 500 may also have generally vertical support posts 511, 531 extending perpendicularly from the bottom frame bar 514, 524, and a generally vertical support post 521 extending perpendicularly from the bottom frame bar 524. A plane 570, shown in dashed lines, may be visualized as extending between the midpoints that bisect the spacer bars 519, 529 and base legs 518, 528 and as extending parallel to the support posts 511, 521, 531.

[0076] The support posts may also have hoisting systems associated therewith to provide a selected hoisting system for a bicycle 50 to be received and lifted into storage on a selected support post, with the bicycles stored in a double row along the length of the unit 500. FIG. 5E shows hoisting systems 60 associated with the support posts 511, 521, 531, the hoisting systems attached to the support posts with a pair of angle connectors, one above the hoist 62, and one below the hoist 62. One of the pair of angle connectors, hanging component 527a, may be seen attached to the support post 521.

[0077] For simplicity of illustration, the hoisting systems 60, which, as noted above, may be any conventional hoisting system, are not shown in FIGS. 5A-5D, their locations represented shown by the pair of angle connectors on each of the vertical support posts 511, 521, 531 that are used to attach the hoisting system to the support poles. The angle connector pairs, also known herein as “hanging components,” may be attached vertically on the inwardly facing surfaces of the support posts, the inwardly facing surface of a support post facing the central plane 570 of the unit 500, with the hanging components 517a, 517b, in this embodiments in the form of an angle connector pair, secured to the inwardly facing surface of vertical support post 511; the hanging components 527a, 527b, also in this embodiment in the form of an angle connector pair, secured to the inwardly facing surface of the vertical support post 521; and the inwardly facing surface of the hanging components 537a, 517b secured to the vertical support post 531, all arranged to attach the hoisting system 60 to the posts.

[0078] As shown in FIGS. 5C, 5D, and 5E, the angle connector pairs are staggered along the length of the support posts 511, 521, 531 in order to stagger the bicycles along the height of the unit so as to accommodate the non-uniform geometries of the bicycles along their lengths. In addition, the positioning of the hoisting systems on the inwardly facing surfaces of the support posts allows the stored bicycles, especially their wheels, to extend across the central plane, allowing portions of the stored bicycles on both sides of the unit 500 to share storage space. Further, as described in further detail below, the support posts may be asymmetrically spaced along the frame bars 514, 524 to further accommodate the non-uniform geometries of the bicycles along their widths.

[0079] As shown in FIGS. 8A-8C, which are diagrammatic representations of the unit 500 in operation, with FIG. 8A showing the unit 500 empty of bicycles, FIG. 8B showing the unit 500 storing one bicycle, and FIG. 8C showing the unit 500 storing two bicycles. It can be seen, especially in FIGS. 8B, 8C, that the positioning of the hoisting systems on the inwardly facing surfaces of the support posts 511, 521 allows the stored bicycles, especially their wheels, to extend across the central plane 570, allowing portions of the stored bicycles on both sides of the unit 500 to share storage space. Further, it can be seen, especially in FIG. 8C, that the staggering of the heights of the bicycles hanging on the unit and facing each other across the unit reduces the likelihood of corresponding components of the bicycles (for example, the pedals) from interfering with each other.

[0080] As shown in FIGS. 9A-9B, interference of components of the bicycles with each other may be further reduced by spacing the support posts asymmetrically along the bottom frame bars relative to the support posts on the other side of the unit. The asymmetric positioning of the support posts, in which a first post location 526 (which may be seen in FIGS. 5B, 5D, and 5E) that is across the space between a first side and a second side from a second post location 516 (FIGS. 5B and 5E) on the second base frame bar between adjacent support posts in the second set, prevents the pedals of adjacent bicycles on both sides of the unit 500 from interfering with each other. FIG. 9A, illustrating the top of the unit 500 shown in FIG. 5A, emphasizes the positioning of the hanging components 517a, 527a, 537a and the non-uniform spacing of the support posts 511, 521, 531 relative to each other that may result in the minimization of the loading width of the bicycle storage unit 500 while preventing interference of components of the bicycles with each other.

[0081] It may be seen that the vertical support post 521 is positioned on the frame bar 524 so that a first hanging component 527a (circled at G on FIG. 9A) on the bicycle storage unit 500 is closer in distance projected to the plane defined by the ground or floor to a second hanging component 537a (circled at C on FIG. 9A) than the first hanging component 527a is to a third hanging component (circled at E on FIG. 9A).

[0082] In the embodiment of the unit 500 shown in FIG. 9B, the loading width of the bicycle storage unit 500 may be minimized by maximizing the distance A between the support posts 531, 521, where A is shown in FIG. 9B as the length of a selected leg of the orthogonal triangle 910 represented in dashed lines and defined by a projection on the ground of the following lines: [0083] a first line segment 911 (represented in dashed lines) between: [0084] the location of the hanging component 537a on or near the inwardly facing surface of the support post 531 (for example, the center point of circle C), and [0085] the location of the hanging component 527a on or near the inwardly facing surface of the support post 521 (for example, the center point of circle G), [0086] a second line segment 912 (represented in dashed lines) defined by a line parallel to the inwardly facing surface of the bottom frame bar 524 and extending from the location of the hanging component 527a on the inwardly facing surface of the support post 521 (for example, the center point of circle G), and [0087] a third line segment 913 (represented in dashed lines) defined by a line parallel to the inwardly facing surface of the base leg 528 and extending from the location of the hanging component 537a on the inwardly facing surface of the support post 531 (for example, the center point of circle C) to its intersection with the second line segment.
The selected leg (the length of which may be used to maximize the distance A between the support posts 531, 521) is the third line segment 913 of the orthogonal triangle 910 that is parallel to the inwardly facing surface of the support post 528.

[0088] It can be seen that, when the distance A is so defined, the position on the vertical post of the first hanging component 527a (circled at G) on the bicycle storage unit 500 is closer to the second hanging component 537a (circled at C) on the bicycle storage unit 500 than to a third hanging component 517a (circled at E). By so positioning the support post 521, the distance A (shown in FIG. 7B) may be increased, which, as shown below, allows the front wheel of a bicycle being stored on support post 521 to extend across the central plane 570 and so reduce the loading width and storing width of the unit 500. An increase in the distance A allows the bicycles to move closer to each other, sharing more storage space, thus reducing the overall storing width of the bicycle storage unit 500 when two bicycles are hung facing each other on opposite sides of the central axis 570.

[0089] However, once the distance A becomes too great, components of the two bicycles in storage on the unit 500 may hit each other, causing harm to the bicycles or causing them to entangle. In one embodiment, collision or entanglement may be avoided by capping the length of the distance A to a length at which one pedal of a bicycle being suspended on the support pole 521 is positioned and brought to rest in an area (shown in FIG. 9B as area B.sub.2) between the support poles 511, 531 that extends to or slightly beyond the central plane 570 and is generally positioned between the support pole 511 and a perpendicular central axis 580 that extends parallel to the central plane 570, while the other pedal is positioned and brought to rest in an area (shown in FIG. 9B as area F.sub.2) slightly behind the support pole 531.

[0090] It can further be seen in FIG. 9B that, in determining the distance A, when a bicycle is positioned to be suspended from support pole 531, the front wheel of the bicycle may extend the distance beyond the central axis 570 to a length at which one pedal of the bicycle being suspended is positioned and brought to rest in an area (shown in FIG. 9B as area B.sub.3), while the other pedal is positioned and brought to rest in an area (shown in FIG. 9B as area F.sub.3) slightly behind the support pole 521. The asymmetry of the placement of the support poles in the unit allows for the pedals of adjacent bicycles to be kept away from each other.

[0091] It can be seen in FIG. 9B that, because the bicycle may be positioned across the support pole 531,511 so that the other pedal is brought to rest slightly behind the support pole 531, the dimensions of the bicycle, specifically the perpendicular distance from the bicycle frame to the pedal plus the length of the pedal (which corresponds to the length of the leg of the orthogonal triangle that is parallel to the inwardly facing surface of the bottom frame bar 524) may control the perpendicular distance between the parallel support poles.

[0092] Thus, in a hanging bicycle unit in which bicycles are suspended in a double row from parallel support poles across a central axis, limiting the distance that a front wheel of a first bicycle to be suspended from a first support pole may extend across the central axis to a distance that is based on the dimensions of the bicycles to be suspended, and are further based on the dimensions of the pedals of the bicycles.

[0093] A comparison of a conventional hanging bicycle storage unit (such as unit 20) and an embodiment of the hanging bicycle storage unit of the instant invention (such as unit 500) shows that the minimum storing width 90 of the conventional unit 20 is much larger than the minimum storing width 590 of the conventional unit 20. As illustrated in FIGS. 10A, 10B, the minimum storing width 90 of the conventional unit 20 is equal to the sum of the heights D1 and D2, plus the distance between the support bars 24a, 24b (including the widths of the support bars), but no less than double the height of the tallest bicycle expected to be loaded onto the unit 10. The minimum storing width 590 of the unit 500 is equal to less than the sum of the heights D1 and D2. As noted above, the loading width of the unit 20 would be 2.5 m+2*1.3 m =5.1 m (up to 5.2 m), with 1.3 m being the amount of additional space that a bicycle parked on the ground requires at the onset of the loading process for or at the end of the unloading process. As shown in FIG. 10A, the loading width of the unit 500 would be D1+D2=2.5-2.6 m, which is considerably less than the loading width of the unit 20.

[0094] Also, it can be seen that the distance A may be based on the dimensions of a bicycle based on the length of the pedal spindle. In certain embodiments, the distance A is further based on the pedals of a bicycle that has the largest dimensions of bicycles anticipated to be stored in the unit 500.

[0095] FIG. 11 shows the dimensional parameters for a bicycle that may be used to design an illustrative but not necessarily preferred embodiment-of the hanging bicycle storage units 502, 504: [0096] Length: 1850 mm; [0097] Height handlebar: 1100 mm; [0098] Height seat: 1050 mm; and [0099] Pedal width: up to 250 mm perpendicular from center of bike frame.
For a hanging bicycle storage unit arranged to store bicycles having such parameters, the unit parameters may be: [0100] From support pole to central axis 570: 230 mm; [0101] Unit storing width: 2 m (equal to distance A of FIG. 10B); and [0102] Loading width (add 1.3 m for aisle width).

[0103] Although the disclosed components have been described above as being separate units, one of ordinary skill in the art will recognize that functionalities provided by one or more units may be combined. As one of ordinary skill in the art will appreciate, one or more units may be optional and may be omitted or changed from implementations in certain embodiments. For example, the manner of high/low staggering of the suspended bicycles on a storage unit may be selected at the option of the designer.

[0104] In the configuration shown in the embodiment of unit 500, the support pole 521 is paired with the support pole 531, so that the poles 521, 531 are secured to the horizontal bottom frame bars 544, 514, respectively, at a shorter distance than are the poles 521, 511. In so doing, the unit 500 is arranged to position and bring to rest one of the pedals of the bicycle to be suspended from the support pole 521 slightly behind the support pole 531, and to position and bring to rest one of the pedals of the bicycle to be suspended from the support pole 531 slightly behind the support pole 521. A review of FIG. 5B shows that, when compared to support pole 511, the hanging component 517a is vertically higher from the ground/floor than the angle connector 537a of the support pole 521. At the choice of the designer, the poles 521, 511 could be paired together so that they are geometrically at a shorter distance than are the poles 521, 531, so that one of the pedals of the bicycle to be suspended from the support pole 521 position would be brought to rest slightly behind the support pole 511, and one of the pedals of the bicycle to be suspended from the support pole 511 would be brought to rest slightly behind the support pole 521.

[0105] One example of an alternative manner of high/low staggering of the suspended bicycles on a storage unit is shown in FIG. 6, in which a unit 600 has: [0106] on one side, a series of support poles are arranged with a line 640H of hanging components secured in a high position on every other support pole, and a line 640L of hanging components secured in a low position on every other support pole; and [0107] on the other side, a series of support poles are arranged with a line 660H of hanging components secured in a high position on every other support pole, and a line 660L of hanging components secured in a low position on every other support pole.

[0108] As in unit 500, the parallel support poles of unit 600 may also be paired so that they are secured to the unit at a geometrically shorter distance than are the poles adjacent to the paired poles. However, unlike unit 500, adjacent support poles of the unit 600 with the same type of hanging components' position may be paired so that poles with hanging components secured in a high position are secured to the unit 600 at a geometrically shorter distance than are the poles adjacent to the paired high position poles, and poles with hanging components secured in a low position are secured to the unit 600 at a geometrically shorter distance than are the poles adjacent to the paired low position poles. The pairings may be seen in FIG. 6 with ovals pairing poles and their pairing by position type designated (H,H) or (L,L).

[0109] Alternatively, in another configuration, as shown in FIG. 7, a unit 700 has: [0110] on one side, a series of support poles are arranged with a line 40E of hanging components secured at the same vertical height on all support poles on that side of the unit 700; and [0111] on the other side, a series of support poles are arranged with a line 760H of hanging components secured in a high position on every other support pole, and a line 760L of hanging components secured in a low position on every other support pole; and

[0112] As in units 500, 600 the parallel support poles of unit 700 may also be paired so that they are secured to the unit at a geometrically shorter distance than are the poles adjacent to the paired poles, with every other pole on the side with hanging components secured at the same vertical height paired with a high type of hanging component; and every other pole on the side with hanging components secured at the same vertical height paired with a low type of hanging component. The pairings may be seen in FIG. 7 with solid lines pairing poles and their pairing by position type designated (H,E) or (L,E).

[0113] While securing hanging components at the same vertical height on one side of the unit 700 may raise the risk of bicycle parts, especially handlebars, from interfering with each other, unit 700 may be made longer to allow for greater distance between individual suspended bicycles. Also, there may be units designed for which the even heights of bicycles may be desired, for example, when the unit is arranged to suspend children's bicycles on one side and adult's′ bicycles on the other side. Thus, it can be seen that the set of hanging components in a unit may be staggered on the support posts of a unit such that they are positioned at multiple vertical heights from the ground. Similarly, a set of hanging components in a unit may be staggered on the support posts in a pattern that is not necessarily alternating or zigzagging (with H, M, H, L, H, M, L, M, L, M along a side of an exemplary unit and a complementary hanging component height type on the other side of the exemplary unit), depending on the priorities of the designer, who may choose to accommodate the efficient storage of a number and/or non-uniform geometries of bicycles along their lengths and widths.

[0114] The foregoing descriptions have been presented for purposes of illustration. It is not exhaustive and does not limit the invention to the precise forms or embodiments disclosed. Modifications and adaptations of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the disclosed embodiments. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.