Portable outdoor weight training platform

Information

  • Patent Application
  • 20090195008
  • Publication Number
    20090195008
  • Date Filed
    January 31, 2008
    16 years ago
  • Date Published
    August 06, 2009
    15 years ago
Abstract
An expandable trailer for transporting and using exercise equipment on the expanded trailer platform, comprising a boxcar shaped trailer mounted on wheels with a hitch for connecting to a motor vehicle. The boxcar walls are hingedly connected to the floor and pivotally open, extending the boxcar platform. Preferred embodiments include truss systems mounted to the platform equipped with cylinder type braces or pulleys that facilitate manually or automatically opening and closing the boxcar walls.
Description
CROSS REFERENCE TO RELATED APPLICATIONS

Not Applicable


STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not Applicable


THE NAMES OF THE PARTIES TO A JOINT RESEARCH AGREEMENT

Not Applicable


REFERENCE TO A SEQUENCE LISTING

Not Applicable


BACKGROUND OF THE INVENTION

1. Field of the Invention


This invention relates generally to expansible trailers adaptable to provide increased usable floor area, and relates more particularly to expansible trailers adaptable for use as a mobile gym.


2. Description of Related Art


Expandable trailers are not new. However, up to now, expandable trailers have been cumbersome to use, complicated to make, and expensive to build. A typical prior art example is disclosed in U.S. Pat. No. 4,135,755 to Steffens. In the Steffens patent the roof, walls, and floor of the structure are interconnected by a sophisticated arrangement of fastening elements, which are hydraulically or pneumatically controlled and operated. Design and assembly of the structure disclosed in the Steffens patent requires a fair amount of precision among interconnected parts. An error in arrangement of one element renders the entire structure inoperable. The precision design demands of the Steffens patent drives up manufacturing costs. Manufacture of the typical expansible trailer, in general, exceeds the purchase price of most motor vehicles (such as heavy duty pick up trucks) required to tow such trailers. An object of the present invention is to develop an expansible trailer, the manufacturing costs of which are in the range of the retail purchase price of a typical heavy duty conventional trailer.


The mobile gym disclosed in U.S. Pat. No. 5,667,267 to Talucci appears simplistic. The Talucci patent discloses a trailer with expandable side panels which are lowered and raised by spring tensioning means, the construction and operation of which are very simple. However, the spring tensioning means themselves obstruct the usable area of the expanded floor. The Talucci patent is very simple to make and operate but does not disclose a simple means for maximizing the usable area of the expanded floor. An object of the present invention is to provide an expandable trailer that maximizes the usable area of the expanded floor, and whose operation is simple. Another object is to develop an expansible trailer whose walls are easily extended and retracted by a single person and in a substantially short time. An additional object of the present invention is to develop an expansible trailer, the manufacturing costs of which are in the range of the purchase price of a typical heavy duty conventional trailer.


BRIEF SUMMARY OF THE INVENTION

The present invention provides an expansible trailer with retractable walls, comprising a platform with a floor, an underside, and four peripheral edges. The trailer also comprises two sets of opposing walls. Each wall had an outside and inside surface and two sets of opposing peripheral edges. Each wall has a peripheral edge hingedly attached to a platform peripheral edge, forming a right angle between the wall inside surface and platform floor. Hinged in this fashion, the four walls and platform floor form a box with substantially square corners between the walls. Each wall is capable of swinging about its hinged edge to where the wall inside surface and the platform floor are coplanar.


One set of opposing walls have hinged wall sections along the wall edges forming said corners. The hinged wall sections have inside and outside surfaces. The hinged wall sections partially overlap the other set of opposing walls when all the walls are upright at right angles with the platform floor, wherein the inside surface of each hinged wall section is coplanar with and faces the outside surface of one of the other opposing walls. In this orientation, the hinged wall sections are capable of being fastened to the outside surfaces of the other set of opposing walls, preventing the four walls from collapsing. Additionally, the hinged wall sections fill the gaps between the walls when the walls are coplanar with the platform floor, wherein the inside surfaces of the hinged wall sections are coplanar with the inside surfaces of the walls and the platform floor.


The trailer also comprises a plurality of supports fixed to the outside surfaces of the hinged wall sections and fixed to the outside surfaces of all the walls proximal to each wall's free edge opposite the wall edge hinged to the platform floor. The supports have a load bearing capacity sized to support the weight of a wall or hinged wall section, and the weight of exercise equipment while being used by people when all walls are coplanar with the platform floor and the supports are wedged between the ground and the outside surfaces of the walls and hinged wall sections.


Other objects and advantages of the present invention will be readily apparent upon a reading of the following brief descriptions of the drawing figures, detailed descriptions of preferred embodiments of the invention, the appended claims and drawings.





BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

The above mentioned and other objects and features of this invention and the manner of attaining them will become apparent, and the invention itself will be best understood by reference to the appended drawings. In the course of the following detailed description, reference will be made to the appended drawings in which:



FIG. 1. An isometric of a preferred embodiment of the trailer with retractable walls in the upright position



FIG. 2A. A side view of a preferred embodiment of the trailer with the walls in the upright position



FIG. 2B. A side view of a preferred embodiment of the trailer with walls coplanar with the platform floor.



FIG. 3. An isometric of a preferred embodiment of the trailer illustrating the retractability of the hinged wall sections



FIG. 4. An isometric of a preferred embodiment of the trailer including railing



FIG. 5. An isometric of a preferred embodiment of the trailer including an arched truss wall retractable system



FIG. 6A. A side view of a preferred embodiment of the trailer including an arched truss wall retractable system



FIG. 6B. A side view of a preferred embodiment of the trailer including an arched truss wall retractable system with the walls coplanar with the platform floor



FIG. 7. An isometric of a preferred embodiment of the trailer with the walls coplanar with the platform floor including an arched truss wall retractable system



FIG. 8. A side view of a preferred embodiment of a hollow U section of the arched truss



FIG. 9. An isometric of a preferred embodiment of a dashpot



FIG. 10. A cut-away side view of a preferred embodiment of a hollow U section of the arched truss



FIG. 11A. An isometric of a preferred embodiment of the trailer with a roof



FIG. 11B. An isometric of a preferred embodiment with a roof illustrating the retractability of the hinged wall sections



FIG. 12. An isometric of a preferred embodiment with a roof, illustrating a wall retractable system using a truss, winches, pulleys, and cables



FIG. 13. An isometric of a preferred embodiment with a roof, illustrating a wall retractable system using a cylindrical column and beam truss system and a winch pulley system



FIG. 14. An isometric of a preferred embodiment, illustrating an attachable staircase



FIG. 15. An isometric of a preferred embodiment, illustrating an attachable wheel chair lift



FIG. 16. An isometric of a preferred embodiment illustrating a cylindrical column beam truss system



FIG. 17. An isometric of a preferred embodiment, illustrating the wall retractable system using a truss, cables, pulleys, and winches



FIG. 18. An isometric of a preferred embodiment illustrating the detachability of the cables





DESCRIPTION
Definitions

Trailer. A Trailer is an un-powered vehicle having a substantially level, horizontal platform, pulled by a powered vehicle.


Dashpot. A dashpot is a mechanical device, a damper which resists motion via viscous friction. The resulting force is proportional to the velocity, but acts in the opposite direction, slowing the motion and absorbing energy. The dashpots referred to in this application are linear dashpots.


DETAILED DESCRIPTION OF THE INVENTION

In the following description, like reference characters designate like or corresponding parts throughout the several views. Referring now to the drawings in detail, reference is made to FIGS. 1, 2A and B, 3, and 4. The present invention is an expansible trailer 20 (as in FIG. 1) with retractable walls 21, 24, 26, 28. The present invention comprises: a platform 59 with a floor 29, an underside 54, and four peripheral edges 28, 56, 57, and 58; and two sets of opposing walls 21 and 26, and 24 and 28. Each wall 21, 24, 26, 28 has an outside and inside surface and two sets of opposing peripheral edges. Each wall 21, 24, 26, 28 has one of its peripheral edges hingedly attached to a separate platform peripheral edge 28, 56, 57, and 58. The walls 21, 24, 26, 28 are hinged such that they form an upright right angle between each wall 21, 24, 26, 28 inside surface and the platform floor 29. In this orientation, the four walls 21, 24, 26, 28 and platform floor 29 form a box with substantially square corners 50, 51, 52, and 53, between the walls 21, 24, 26, 28. Each wall is capable of swinging about its hinged edge to a position such that each wall's inside surface and the platform floor are coplanar (as in FIG. 4).


One set of opposing walls 21 and 26 have hinged sections 22, 23, 25, and 27 along the wall edges forming said corners 50, 51, 52, and 53. The hinged wall sections 22, 23, 25, and 27 have inside and outside surfaces. The hinged wall sections 22, 23, 25, and 27 partially overlap the other set of opposing walls 24 and 28 when all the walls 21, 24, 26, 28 are upright, at right angles with the platform floor 29. The hinged wall sections 22, 23, 25, and 27 are capable of being fastened to the other set of opposing walls 24 and 28, preventing the four walls 21, 24, 26, 28 from collapsing. The hinged wall sections 22, 23, 25, and 27 fill the gaps between the walls 21, 24, 26, 28 when the walls 21, 24, 26, 28 are coplanar with the platform floor 29; the hinged wall sections 22, 23, 25, and 27 also being coplanar with the platform floor 29 (as in FIG. 4).


The trailer 20 further comprises a plurality of supports 32 fixed to the outside surfaces of the hinged wall sections 22, 23, 25, and 27 and all walls 21, 24, 26, 28 proximal to each wall's free edge opposite the wall edge hinged to the platform floor 29 (as in FIG. 4). The supports 32 have a load bearing capacity sized to support the weight of a wall or hinged wall section, and the weight of exercise equipment while being used by people when all walls 21, 24, 26, 28 are coplanar with the platform floor 29 while the supports 32 are wedged between the ground and the outside surfaces of the walls 21, 24, 26, 28 and hinged wall sections 22, 23, 25, and 27.


The trailer walls may be made out of any rigid material, preferably metal, capable of supporting the weight of typical exercise equipment while being used by people. The dimension of the walls and platform are not limited. The trailer platform may be the size of a typical light utility trailer, the size of a tractor trailer, or larger. The height of the walls may exceed the platform width. A preferable wall height would be approximately half the length of the platform, resulting in an expanded trailer floor area six times the floor area of the trailer in the retracted position. This advantage maximizes the usable floor area, as no prior art expandable trailer increases the usable floor as much.


Now referring to FIGS. 5, 6A, 6B, 7, 8, 9, and 10. Another preferred embodiment includes wall retractable means including an arched truss system 36 and dashpots 38 (as in FIG. 5). The truss system 36 is mounted to the platform floor 29. The truss system 36 comprises two hollow U sections 34 and 35 and a cylindrical beam section 33. Each U section 34 and 35 has an inside and outside surface, two legs 44 spaced apart and connected by a curvilinear arch 43, and tracks 37 extending from the foot 42 of each leg 44 to the arch 41. The inside surface of the U sections 34 and 35 face each other. Each cylindrical beam 33 end is rigidly attached to the inside surface of a U section 34 and 35 at the middle of the arches 43. All four legs 44 are securely fastened to the floor 29 near the corners 50, 51, 52, 53 between the walls 21, 24, 26, and 28.


Each dashpot 38 has two ends 39 and 40. One end 40 of each dashpot 38 is connected to the inside surface of a separate wall 21, 24, 26, 28 proximal to the wall free edge opposite the wall edge hinged to the platform floor 29 (as in FIG. 7). The other end 39 of each dashpot 38 is slidably connected to a separate track 37. Each dashpot 38 comprises a plurality of telescopically retractable cylinders 61, 62, and 63 and a piston 60. Each dashpot's cylinders 61, 62, and 63 and piston 60 fully extend when the wall to which the dashpot 38 is attached is coplanar with the platform floor 29. In this orientation, each dashpot end 39 connected to one of the tracks 37 slides to the foot 42 of the leg 44.


Now here is a description of how to use the preferred embodiment. When one of the walls 21, 24, 26, 28 is manually lifted to the upright position, the cylinders 61, 62, and 63 and piston 60 fully and resistively retract forcing the dashpot end 39 connected to the track 37 to slide up the track 37. When the walls 21, 24, 26, 28 are upright and the hinged wall sections 22, 23, 25, and 27 are unfastened, the dashpots 38 provide resistance and retards each wall 21, 24, 26, and 28 from pivoting about its hinged edge and falling according to the gravitational weight of the respective wall. In a another preferred embodiment, when the dashpots 38 are fully retracted, they lock and hold the walls 21, 24, 26, and 28 in the upright positions. The advantages of these embodiments are profound, because a single person can expand and lower the walls easily and manually. Manufacturing costs are very low because parts can be massed produced and prefabricated. These preferred embodiments are sturdy and robust but do not require extreme precision to manufacture. These embodiment illustrate redundancies, wherein each wall is attached to two dashpots. If one breaks or malfunctions, one dashpot remains. The dashpots can be sized such that only one is necessary to provide the desired resistance.


Still referring to FIGS. 5, 6A, 6B, 7, 8, 9, and 10, another preferred embodiment comprises each dashpot 38 being connected to a winch 47 by a cable 45 and 49 (as in FIG. 10) and operated by a remote control (not shown). Each winch 47 is fastened to the platform underside 54. Each cable 45 and 49 is connected to a separate piston 60 (as in FIG. 9) and extends through the cylinders 61, 62, and 63, through the dashpot end 39, inside the track 37, up through the arch 43, down through the opposing leg 44, through the floor 29 and to one of said winches 47.


Now here is a description of how to use the preferred embodiment. Operating the remote to reel in the cable attached to one of the winches 47, in turn pulls the piston 60, forcing one of the cylinders 61, 62, and 63 to retract, and forcing the dashpot end 39 to slide up the track to the arch 41, wherein the piston end 40 pulls one of the walls causing the wall to pivot about its free edge until the wall is in the upright position (as if FIG. 5). Turning the winch 47 in reverse unwinds the cable 45 and 49, wherein the weight of the wall pivots about its hinged edge until the wall is coplanar with the platform floor 29, wherein cylinders 61, 62, and 63 and piston fully extend, and the dashpot end 39 slides to the foot 42.


The material of the truss 36 should be metal, preferably steel. To reduce the overall weight on the platform 29, the truss 36 may be made out of thermoplastic. The height of the truss 36 should be taller than the height of the walls 21, 24, 26, 28. It is preferable to make the height of each truss leg 44 approximately six feet, so that people could walk under the truss arches 43, making maximum use out of the extended floor area. The material of the cable should be metal, preferably steel. However, if the walls are lightweight, the cables may be fiberglass or rope. There are obvious advantages of using the truss 36, dashpots 38, cables 49, and winches 48 to lower the walls. The truss 36 may be easily prefabricated and mass produced making manufacture cheap. Installing the truss 36, dashpots 38, cables 49, and winches 48 is simple. More importantly, lowering and raising the walls is as simple as operating a remote control. Even without the cables 39, winches 48, and remote, lowering and raising the walls, using the truss 36 and dashpots 38 is easy, and can be operated by one person. A person can simply unfasten both of the hinged wall sections 22, 23, 25, and 27 attached to a single opposing wall 24 or 28, and the person will be able to lower the wall 24 or 28 manually, without having the wall 24 or 28 collapse too quickly because the dashpots 38 will arrest some of the weight of the wall as stated above. Then a person could unfasten the hinged wall sections 22, 23, 25, and 27 attached to the other opposing wall 28 or 24, allowing each opposing wall 21 and 26 to collapse under the resistance of the dashpots 38, and then the person could lower the remaining opposing wall 28 or 24.


Now referring to FIGS. 11A and B, 12, 13, 14, 15, 16, 17, and 18, another preferred embodiment includes wall retractable means comprising a cylindrical column and beam truss system connected by cables and pulleys to remotely controlled winches. The truss system comprises four columns 66, 71, 72, and 73 and four beams 88, 89, 90, and 91. One end of each column 66, 71, 72, and 73 is rigidly fastened to the platform floor 29 near one of the corners 50, 51, 52, and 53 (as in FIG. 16). The beams 88, 89, 90, and 91 are rigidly fastened between the columns 66, 71, 72, and 73 at the other end of each column 66, 71, 72, and 73 (as in FIG. 16). Each pulley 75, 80, 92, 93 is anchored to a separate beam 88, 89, 90, and 91. All four winches 81, 82, 83, and 84 are mounted to the platform underside 54 at the center of the platform 29. The winch cables 74, 77, 78, and 79 extend through apertures in the center of the platform floor 29 (as in FIG. 17). Each cable 74, 77, 78, and 79 is attached to a separate pulley 75, 80, 92, 93, and fastened to the inside surface of a separate wall 21, 24, 26, 28 near the free wall edge opposite the wall edge hinged to the platform floor 29 (as in FIGS. 17 and 18).


Now here is a description of how to use the preferred embodiment. Operating one of the remote controls to reel in one of said cables pulls the wall to which the cable is attached, causing the wall to pivot about the wall edge hinged to the platform floor, lifting the wall to its upright position (as in FIGS. 11A and B, and 12). Operating one of the winches in reverse, to unwind one of the cables, has the opposite effect, wherein the weight of the wall against the tension in the unwinding cable causes the wall to collapse, pivoting about its edge hinged to the platform floor, until the respective wall is coplanar with the platform floor 29, the falling rate of the wall being controlled by the remote. This embodiment provides the best means for lowering and raising the walls, because the dashpots 38 are unnecessary, reducing manufacturing costs. And it is very expedient to install the pulleys 75, 80, 92, 93 and winches 81, 82, 83, and 84. Also, a truss made out of cylindrical beams and columns is cheaper to manufacture than the arched truss 36, because the cylindrical beams and columns are readily available.


In another preferred embodiment, a roof 65 is mounted on top of the beams 88, 89, 90, and 91, providing shading from the sun (as in FIG. 13). In another preferred embodiment, railing 85 is mountable along the inside surfaces of all the walls 21, 24, 26, and 28 and hinged wall sections 22, 23, 25, and 27 when the hinged wall sections are coplanar with the platform floor 29 (as in FIG. 14). In another preferred embodiment a modular staircase 86 is mountable to the hinged wall sections' free edges when the hinged wall sections 22, 23, 25, and 27 are coplanar with the platform floor 29 (as in FIG. 14). In another embodiment, a wheelchair lift 87 is mountable to at least one of the hinged wall sections' edges when coplanar with the platform floor (as in FIG. 15). In another embodiment, each cable 74, 77, 78, and 79 is detachably fastened to each wall, 24, 26, and 28, wherein when a wall is coplanar with the platform floor, the cable may be detached, and reeled into one of the winches, whereby the cable does not obstruct the path of a person using the exercise equipment (not shown) mounted on the inside surfaces of the walls and hinged wall sections when coplanar with the platform floor (as in FIG. 18).


Referring again to FIGS. 1, 2A and B, 3, and 4, another embodiment comprises a substantially horizontal rectangular platform 59 comprising a floor 29, an underside 54, two longitudinal edges 55 and 57, and two transverse edges 56 and 58. The preferred embodiment further comprises opposing sidewalls 24 and 28, each sidewall 24 and 28 having an inside surface and outside surface, a hinged edge 55 and 57 and an opposing free edge; each sidewall 24 and 28 being hingedly connected to one of the platform longitudinal edges 55 and 57, wherein each sidewall 24 and 28 is capable of swinging about its hinged edge 55 and 57 between an upright position, relative to the platform floor 29, and a horizontal position, substantially coplanar with the platform floor 29.


The preferred embodiment further comprises a front wall 21 comprising an inside surface and an outside surface, two panels 22 and 23 with inside and outside surfaces, a free edge and an opposing edge 58 hinged to a platform transverse edge 58, and two opposing side edges 50 and 53 hinged to separate one of said panels 22 and 23, wherein each panel 22 and 23 is capable of swinging about the respective panel's hinged edge 50 and 53 to a coplanar position relative to the front wall 21 and perpendicular to the front wall 21 when the front wall 21 is in an upright position relative to the platform floor 29. The embodiment further comprises a rear wall 26 comprising, an inside surface and an outside surface, two panels 25 and 27 with inside and outside surfaces, a free edge and an opposing edge 56 hinged to the other platform transverse edge 56, and two opposing side edges 51 and 52, each respective rear wall side edge 51 and 52 hinged to one of said rear wall panels 25 and 27, wherein each rear wall panel 25 and 27 is capable of swinging to a coplanar position relative to the rear wall 26 and a position perpendicular to the rear wall 26 when the rear wall 26 is in an upright position relative to the platform floor 29.


The preferred embodiment further comprises a plurality of sturdy angle braces 32 fixed to the outside surfaces of all walls 21, 24, 26, and 28 and panels 22, 23, 25, and 27. The angle braces 32 attached to the panels 22, 23, 25, and 27 are attached near the panel free edge opposite the respective panel hinged edge 50, 51, 52, and 53. The angle braces 32 attached to the front, rear and side walls 21, 24, 26, and 28 are attached near the wall free edge opposite the wall edge 55, 56, 57, and 58 hinged to the platform 29. The angle braces 32 have a load bearing capacity sized to support the weight of a wall 21, 24, 26, and 28 or panel 22, 23, 25, and 27, and the weight of exercise equipment while being used by people when all walls 21, 24, 26, and 28 and panels 22, 23, 25, and 27 are coplanar with the platform floor 29 and the angle braces 32 are wedged between the ground and the exterior surfaces of the walls 21, 24, 26, and 28 and panels 22, 23, 25, and 27.

Claims
  • 1. An expansible trailer with retractable walls, comprising: a platform having a floor, an underside, and four peripheral edges; and two sets of opposing walls, each wall having an outside and inside surface and four peripheral edges; each wall has one peripheral edge hingedly attached to a separate platform peripheral edge, forming an upright right angle between each wall inside surface and the platform floor, the four walls and platform floor forming a box with substantially square corners between the walls; each wall being capable of swinging about its hinged edge until each wall's inside surface and the platform floor are coplanar; one set of opposing walls have hinged sections along the wall edges forming said corners; the hinged wall sections have inside and outside surfaces; the hinged wall sections partially overlap the other set of opposing walls when all the walls are upright at right angles with the platform floor; the hinged wall sections are capable of being fastened to the other set of opposing walls to prevent the four walls from collapsing; the hinged wall sections fill the gaps between the walls when the four walls are coplanar with the platform floor;and a plurality of supports fixed to the outside surfaces of the hinged wall sections, and fixed to the outside surfaces of the four walls proximal to each wall's free edge opposite each wall edge hinged to the platform floor; the supports having a load bearing capacity sized to support the weight of a wall or hinged wall section, and the weight of exercise equipment while being used by people when the four walls are coplanar with the platform floor and the supports are wedged between the ground and the outside surfaces of the walls and hinged wall sections;when the four walls and the platform form a box, the trailer is in the retracted position, and is capable of being loaded with exercise equipment, attached to motor vehicle, and towed on the road; when the four walls are coplanar with the platform floor, the trailer is in the expanded floor position, wherein the walls and platform floor form the expanded trailer floor, and the exercise equipment may be spread across the expanded trailer floor;when the trailer is in the retracted position one person can lower the four walls by unfastening both hinged wall sections attached to the same opposing wall; the person may first lower the unfastened opposing wall; the other three walls remain upright because of the other opposing wall being fastened to the other two hinged wall sections; the person may then unfasten the hinged wall sections, allowing each of the walls with hinged wall sections to collapse one at time while the person is holding onto the remaining upright opposing wall; then the person may lower the remaining upright opposing wall.
  • 2. The trailer in claim 1, wherein the trailer includes retractable means, comprising a an arched truss and a plurality of dashpots; the truss comprising two hollow U sections and a cylindrical beam section; each U section having an inside and outside surface, two legs spaced apart and connected by a curvilinear arch, and tracks extending from the foot of each leg to the arch; the inside surface of the U sections face each other; each cylindrical beam end being rigidly attached to the inside of a U section at the middle of the arches; wherein all four legs being securely fastened to the platform floor near the corners between the walls; a dashpot, having two ends, one end being connected to the inside surface of each wall proximal to the wall free edge opposite the wall edge hinged to the platform floor, the other dashpot end being slidably connected to a separate track; each dashpot comprising a plurality of telescopically connected cylinders and piston;each dashpot's cylinders and piston fully extend when the wall to which the dashpot is attached is coplanar with the platform floor, and the dashpot end connected to the track slides to the foot of the leg; when a wall is manually lifted to the upright position, the dashpots connected thereto fully and resistively contract forcing the dashpot end connected to the track to slide up the track; when the walls are upright and the hinged wall sections are unfastened, the dashpots provide resistance preventing each wall from pivoting about its hinged edge and falling according to the gravitational weight of the wall, the pistons and rod partially offsetting the weight of the wall, wherein the wall collapses slowly until the wall is coplanar with the platform floor.
  • 3. The trailer in claim 2, wherein the dashpots are capable of locking when fully retracted, holding the walls in the upright positions; wherein the walls are made out of any rigid material capable of supporting the weight of typical exercise equipment while being used by people; and wherein the height of the walls equal the platform width.
  • 4. The trailer in claim 3, wherein the walls are made out of metal, and wherein the trailer platform dimensions equal the size of a typical light utility trailer.
  • 5. The trailer in claim 3, wherein the trailer platform dimensions equal the size of a tractor trailer.
  • 6. The trailer in claim 3, wherein the height of the walls equal approximately half the length of the platform, resulting in an expanded trailer floor area six times the retracted floor area.
  • 7. The trailer in claim 6, wherein the material of the truss is metal, and the material of the cables is steel.
  • 8. The trailer in claim 4, wherein the material of the truss and cables is steel.
  • 9. The trailer in claim 3, wherein the material of the truss is made out of thermoplastic.
  • 10. The trailer in claim 3, wherein the height of the truss is taller than the height of the walls.
  • 11. The trailer in claim 3, wherein the height of each truss leg is approximately six feet.
  • 12. The trailer in claim 11, wherein the material of the cables is fiberglass.
  • 13. The trailer in claim 11, wherein the cables are made of rope.
  • 14. The trailer in claim 3, wherein, the wall retractable means includes a plurality of cables, winches and a remote control; one end of each cable being connected to each dashpot piston, and the other end of each cable being connected to a winch, the winch being controlled by the remote control; the winch being fastened to the platform underside; each cable connected to one of the piston rods extends through the piston cylinders, through the dashpot end connected to one of the tracks, inside the track, up through one of the arches, down through the opposing leg, through the floor and to one of said winches; Operating the remote to reel in one of the winch cables connected to the respective dashpot piston rod pulls the piston rod, causing a tension in the cable forcing the piston cylinders to retract, and forcing the dashpot end connected to one of the tracks to slide up the track to one of the arches, pulling the wall causing the wall to pivot about its free edge until the wall is in the upright position; operating the remote to unwind one of the cables causes the wall to pivot about its hinged edge until the wall is coplanar with the platform floor, wherein the dashpot's cylinders and piston fully extend, and the dashpot end connected to one of the tracks reaches the foot of the truss leg.
  • 15. The trailer in claim 1, wherein the trailer includes wall retractable means, comprising a cylindrical column and beam truss system, and a winch pulley system; the truss system comprising four columns and four beams; one end of each column being rigidly fastened to the platform floor near a separate one of the corners; the beams being rigidly fastened between the columns at the other end of each column; the winch pulley system comprising, four winches including remote controls; each pulley being anchored to a separate beam; all four winches being mounted to the platform underside at the center of the platform floor; the winch cables extending through apertures in the center of the platform floor, each cable extending through a separate pulley, one end of each cable being fastened to the inside surface of a separate wall proximal to one of the wall edges opposite the wall edge hinged to the platform floor;operating one of the remotes to reel in one of the cables creates a tension in the cable, causing the wall to which the cable is attached to pivot about the wall hinged edge, lifting the wall to its upright position; operating one of the remotes to unwind one of the cables has an opposite effect, wherein the weight of the wall against the tension in the unwinding cable causes the wall to collapse coplanar with the platform floor, the falling rate of the wall being controlled by the remote.
  • 16. The trailer in claim 15, wherein the columns are approximately 6 feet.
  • 17. The trailer in claim 16, wherein a roof is mounted on top of the beams, providing shading from the sun.
  • 18. The trailer in claim 17, wherein railing is mountable along the inside surfaces of all the walls and hinged wall sections when coplanar with the platform floor.
  • 19. The trailer in claim 18, wherein a modular staircase is mountable to the hinged wall sections proximal to the wall edges opposite the wall edges hinged to the platform floor; and wherein a wheelchair lift is mountable to at least one of the hinged wall section's edges opposite the wall edges hinged to the platform floor.
  • 20. The trailer in claim 19, wherein each cable is detachably fastened to each wall, wherein when a wall is coplanar with the platform floor, the cable may be detached, and reeled into the winch, whereby the cable does not obstruct the path of a person using exercise equipment mounted on the extended platform floor.