Obstacle apparatus and method

Abstract

An obstacle apparatus is disclosed for an individual to traverse. The obstacle apparatus comprises a chassis and a frame. A hinge pivotably couples the chassis and the frame for positioning the frame in an inclined orientation relative to the chassis. A first drum is rotatably coupled to the frame. A second drum is rotatably coupled to the frame. A belt encircles the first drum and the second drum for defining a continuous loop belt system. A drive engages the continuous loop belt system for creating a displacement in the belt. The belt defines an upper belt surface for the individual to traverse.

Claims

1. A mobile obstacle apparatus for an individual to traverse, the mobile obstacle apparatus supported by a surface, the mobile obstacle apparatus, comprising: a chassis extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a plurality of wheels rotatably coupled to said chassis for transporting said chassis over the surface; a frame extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a hinge pivotably coupling said chassis and said frame for positioning said frame in an inclined orientation relative to said chassis; a first drum rotatably coupled to said frame; a second drum rotatably coupled to said frame; a belt encircling said first drum and said second drum for defining a continuous loop belt system; a drive engaging said continuous loop belt system for creating a displacement in said belt; said belt defining an upper belt surface for the individual to traverse; a slide coupled to said frame for positioning the individual to the surface; and said slide including an interior sliding surface extending between a proximal end and a distal end of said slide.

2. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, wherein said displacement in said belt defining a descending rotation for increasing the difficulty for the individual to traverse said upper belt surface.

3. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including a platform coupled to said proximal end of said frame for supporting individual after traversing said upper belt surface.

4. A mobile obstacle apparatus for the individual to traverse as set forth in claim 3, further including a railing coupled to said platform for preventing individual from falling from said platform.

5. A mobile obstacle apparatus for the individual to traverse as set forth in claim 3, wherein said slide coupled to said platform for positioning the individual to the surface.

6. A mobile obstacle apparatus for the individual to traverse as set forth in claim 5, wherein said slide includes an inflatable bladder defining an exterior semi-rigid sliding surface extending between a proximal end and a distal end.

7. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, wherein said slide includes a tubular member defining an interior rigid sliding surface extending between a proximal end and a distal end.

8. A mobile obstacle apparatus for the individual to traverse as set forth in claim 7, further including a pivot for pivotably coupling said frame and said tubular member for positioning said tubular member between a generally vertical orientation relative to said upper belt surface and a generally horizontal orientation relative to said upper belt surface.

9. A mobile obstacle apparatus for the individual to traverse as set forth in claim 8, further including a panel coupled to said pivot for pivotably said panel between a generally horizontal orientation during said tubular member in said generally vertical orientation and a generally vertical orientation during said tubular member in said generally horizontal orientation; and said generally vertical orientation of said panel defining a retaining wall for maintaining the individual above said frame.

10. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, wherein said slide includes an inflatable bladder defining an exterior semi-rigid sliding surface extending between a proximal end and a distal end.

11. A mobile obstacle apparatus for the individual to traverse as set forth in claim 10, wherein said inflatable bladder includes an inflatable retaining wall adjacent to said frame for maintaining the individual above said frame.

12. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including a trailer ball receiver coupled to said proximal end of said chassis.

13. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including a plurality of telescoping jacks coupled to said chassis for stabilizing said chassis.

14. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including a hydraulic cylinder coupled between said chassis and said frame for pivoting said frame relative to said chassis about said hinge.

15. A mobile obstacle apparatus for the individual to traverse as set forth in claim 14, further including a hydraulic pump coupled to said chassis for providing pressurized hydraulic fluid to said hydraulic cylinder.

16. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including an electric generator coupled to said chassis for providing an electric current to said drive.

17. A mobile obstacle apparatus for the individual to traverse as set forth in claim 1, further including a third drum rotatably coupled to said frame; a fourth drum rotatably coupled to said frame; a second belt encircling said third drum and said fourth drum for defining a second continuous loop belt system; a second drive engaging said second continuous loop belt system for creating a displacement in said second belt; and said second belt defining a second upper belt surface for the individual to traverse.

18. A mobile obstacle apparatus for the individual to traverse as set forth in claim 17, wherein said displacement in said second belt defining a second descending rotation for increasing the difficulty for the individual to traverse said second upper belt surface.

19. A mobile obstacle apparatus for the individual to traverse as set forth in claim 17, further including a platform coupled to said proximal end of said frame for supporting individual after traversing said second upper belt surface.

20. A mobile obstacle apparatus for the individual to traverse as set forth in claim 19, wherein said slide coupled to said platform for positioning the individual to the surface.

21. A mobile obstacle apparatus for the individual to traverse as set forth in claim 20, wherein said slide includes an inflatable bladder defining an exterior semi-rigid sliding surface extending between a proximal end and a distal end.

22. A mobile obstacle apparatus for the individual to traverse as set forth in claim 17, further including a railing coupled to said platform for preventing individual from falling from said platform.

23. A mobile obstacle apparatus for the individual to traverse as set forth in claim 17, further including a second slide coupled to said frame for positioning the individual to the surface.

24. A mobile obstacle apparatus for the individual to traverse as set forth in claim 23, wherein said second slide includes a second tubular member defining a second interior rigid sliding surface extending between a proximal end and a distal end.

25. A mobile obstacle apparatus for the individual to traverse as set forth in claim 24, further including a second pivot for pivotably coupling said frame and said second tubular member for positioning said second tubular member between a generally vertical orientation relative to said second upper belt surface and a generally horizontal orientation relative to said second upper belt surface.

26. A mobile obstacle apparatus for the individual to traverse as set forth in claim 25, further including a second panel coupled to said second pivot for pivotably said second panel between a generally horizontal orientation during said second tubular member in said generally vertical orientation and a generally vertical orientation during said second tubular member in said generally horizontal orientation; and said generally vertical orientation of said second panel defining a second retaining wall for maintaining the individual above said frame.

27. A mobile obstacle apparatus for the individual to traverse as set forth in claim 23, wherein said second slide includes a second inflatable bladder defining a second exterior semi-rigid sliding surface extending between a proximal end and a distal end.

28. A mobile obstacle apparatus for the individual to traverse as set forth in claim 27, wherein said second inflatable bladder includes a second inflatable retaining wall adjacent to said frame for maintaining the individual above said frame.

29. A method for providing an obstacle for an individual to traverse, the method comprising the steps of: rotating a belt encircling a first drum and a second drum coupled to a frame in a descending direction for the individual to traverse between a first elevation to a second elevation; supporting the individual upon a platform after traversing said belt in said second elevation; and descending the individual upon a slide for positioning the individual from said second elevation to said first elevation.

30. A method for providing an obstacle for an individual to traverse as set forth in claim 29, further including the steps of: rotating a second belt encircling a third drum and a four drum coupled to a frame in a descending direction for a second individual to traverse between a first elevation to a second elevation; supporting the second individual upon a platform after traversing said second belt in said second elevation; and descending the second individual upon a second slide for positioning the second individual from said second elevation to said first elevation.

31. An obstacle apparatus for an individual to traverse, the obstacle apparatus supported by a surface, the obstacle apparatus, comprising: a chassis extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a frame extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a hinge pivotably coupling said chassis and said frame for positioning said frame in an inclined orientation relative to said chassis; a first drum rotatably coupled to said frame; a second drum rotatably coupled to said frame; a belt encircling said first drum and said second drum for defining a continuous loop belt system; a drive engaging said continuous loop belt system for creating a displacement in said belt; said belt defining an upper belt surface for the individual to traverse; said displacement in said belt defining a descending rotation for increasing the difficulty for the individual to traverse said upper belt surface; a platform coupled to said proximal end of said frame for supporting individual after traversing said upper belt surface; and a slide coupled adjacent to said platform for positioning the individual to the surface.

32. A mobile obstacle apparatus for the individual to traverse as set forth in claim 31, further including a railing coupled to said platform for preventing individual from falling from said platform.

33. A mobile obstacle apparatus for the individual to traverse as set forth in claim 31, wherein said slide includes a tubular member defining an interior rigid sliding surface extending between a proximal end and a distal end.

34. A mobile obstacle apparatus for the individual to traverse as set forth in claim 33, further including a pivot for pivotably coupling said frame and said tubular member for positioning said tubular member between a generally vertical orientation relative to said upper belt surface and a generally horizontal orientation relative to said upper belt surface.

35. A mobile obstacle apparatus for the individual to traverse as set forth in claim 34, further including a panel coupled to said pivot for pivotably said panel between a generally horizontal orientation during said tubular member in said generally vertical orientation and a generally vertical orientation during said tubular member in said generally horizontal orientation; and said generally vertical orientation of said panel defining a retaining wall for maintaining the individual above said frame.

36. A mobile obstacle apparatus for the individual to traverse as set forth in claim 31, wherein said slide includes an inflatable bladder defining an exterior semi-rigid sliding surface extending between a proximal end and a distal end.

37. A mobile obstacle apparatus for the individual to traverse as set forth in claim 36, wherein said inflatable bladder includes an inflatable retaining wall adjacent to said frame for maintaining the individual above said frame.

38. An obstacle apparatus for an individual to traverse, the obstacle apparatus supported by a surface, the obstacle apparatus, comprising: a chassis extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a frame extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a hinge pivotably coupling said distal end of said chassis and said distal end of said frame for elevating said proximal end of said frame and positioning said frame in an inclined orientation relative to said chassis; a first drum rotatably coupled to said frame; a second drum rotatably coupled to said frame; a belt encircling said first drum and said second drum for defining a continuous loop belt system; a drive engaging said continuous loop belt system for creating a displacement in said belt; said belt defining an upper belt surface for the individual to traverse; said displacement in said belt defining a descending rotation for increasing the difficulty for the individual to traverse said upper belt surface; a platform coupled to said proximal end of said frame; and said platform having a support surface for supporting the individual after traversing said upper belt surface.

39. An obstacle apparatus for an individual to traverse, the obstacle apparatus supported by a surface, the obstacle apparatus, comprising: a chassis extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a frame extending between a proximal end, a distal end, a first side, a second side, an upper side and a lower side; a coupling securing said chassis with said frame for elevating said proximal end of said frame and positioning said frame in an inclined orientation relative to said chassis; a first drum rotatably coupled to said frame; a second drum rotatably coupled to said frame; a belt encircling said first drum and said second drum for defining a continuous loop belt system; a drive engaging said continuous loop belt system for creating a displacement in said belt; said belt defining an upper belt surface for the individual to traverse; said displacement in said belt defining a descending rotation for increasing the difficulty for the individual to traverse said upper belt surface; and a platform coupled to said proximal end of said frame; and said platform having a support surface for supporting the individual after traversing said upper belt surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For a fuller understanding of the nature and objects of the invention, reference should be made to the following detailed description taken in connection with the accompanying drawings in which:

(2) FIG. 1 is an upper front isometric view of a first embodiment of a mobile obstacle apparatus of the present invention;

(3) FIG. 2 is an upper rear view of FIG. 1;

(4) FIG. 3 is a top view of FIG. 1;

(5) FIG. 4 is a right side view of FIG. 1;

(6) FIG. 5 is a front view of FIG. 1;

(7) FIG. 6 is a rear view of FIG. 1;

(8) FIG. 7 is a sectional view along line 7-7 in FIG. 6;

(9) FIG. 8 is a view similar to FIG. 4 illustrating a plurality of lower telescoping jacks engaging a surface for stabilizing a chassis;

(10) FIG. 9 is a view similar to FIG. 5 illustrating a first tubular member and a second tubular member being pivoted from an interior position above the frame to an exterior position adjacent to the frame;

(11) FIG. 10 is a view similar to FIG. 8 illustrating a tailgate being pivoted for engaging the surface;

(12) FIG. 11 is a view similar to FIG. 10 illustrating the frame being pivoted relative to the chassis for positioning a first belt and a second belt in an inclined orientation;

(13) FIG. 12 is a view similar to FIG. 11 illustrating a plurality of slide telescoping jacks engaging a surface for stabilizing the first tubular member and the second tubular member and a plurality of platform telescoping jacks engaging a surface for stabilizing a main platform;

(14) FIG. 13 is a view similar to FIG. 9 illustrating a primary platform and a secondary primary platform being positioned from a vertical orientation to a horizontal orientation relative to the main platform;

(15) FIG. 14 is a view similar to FIG. 12 illustrating a third upper plurality of telescoping jacks engaging a surface for stabilizing the primary platform and the secondary primary platform;

(16) FIG. 15 is a view similar to FIG. 1 illustrating the alignment of a main platform railing with the main platform, a primary platform railing with the primary platform and a secondary platform railing with the secondary platform;

(17) FIG. 16 is a view similar to FIG. 15 illustrating the engagement of a main platform railing with the main platform, a primary platform railing with the primary platform and a secondary platform railing with the secondary platform;

(18) FIG. 17 is a right side view of a second embodiment of the mobile obstacle apparatus of the present invention;

(19) FIG. 18 is a view similar to FIG. 17 illustrating an inflatable bladder being positioned from an interior position above the frame to an exterior position adjacent to the frame;

(20) FIG. 19 is a view similar to FIG. 18 illustrating the inflatable bladder being inflated;

(21) FIG. 20 is an upper front isometric view of FIG. 16 illustrating a first inflatable bladder and a second inflatable bladder adjacent to the frame;

(22) FIG. 21 is an upper rear isometric view of FIG. 20;

(23) FIG. 22 is a top view of FIG. 20;

(24) FIG. 23 is a right side view of FIG. 20;

(25) FIG. 24 is a front view of FIG. 20;

(26) FIG. 25 is a rear view of FIG. 20;

(27) FIG. 26 is a sectional view along line 26-26 in FIG. 25;

(28) FIG. 27 is an upper rear view of a third embodiment of the mobile obstacle apparatus of the present invention;

(29) FIG. 28 is an upper rear view of a fourth embodiment of the mobile obstacle apparatus of the present invention;

(30) FIG. 29 is an enlarged portion of FIG. 7 illustrating a continuous loop belt system;

(31) FIG. 30 is a sectional view along line 30-30 in FIG. 29; and

(32) FIG. 31 is a sectional view along line 31-31 in FIG. 29.

(33) Similar reference characters refer to similar parts throughout the several Figures of the drawings.

DETAILED DISCUSSION

(34) FIGS. 1-31 illustrate an obstacle apparatus 10 for an individual 12 to traverse. Alternatively, the mobile obstacle apparatus 10 may be utilized by an animal 14 to traverse. The obstacle apparatus 10 may include a non-mobile apparatus 11 that is primarily utilized as a non-transportable amusement device 13. Alternatively, the obstacle apparatus 10 may include a mobile apparatus 15 that is primarily utilized as a transportable amusement device 18. The obstacle apparatus 10 may be utilized as an amusement device 20, an exercise device 22, an obstacle device 24, a competitive device 26, a relay device 28 or other applications. The obstacle apparatus 10 is supported by a surface 30. The surface 30 may include a ground surface 32, a roadway 34 or other supporting services.

(35) The obstacle apparatus 10 comprises a chassis 40 extending between a proximal end 42, a distal end 44, a first side 46, a second side 48, an upper side 50 and a lower side 52. Preferably, the chassis 40 includes a trailer chassis 54. The trailer chassis 54 may include a first trailer axle 56 and a second trailer axle 58. A plurality of wheels 60 are rotatably coupled to the first trailer axle 56 and the second trailer axle 58 for coupling the plurality of wheels 60 to the chassis 40. The plurality of wheels 60 facilitate the transportation of the chassis 40 over the surface 30. Preferably, the chassis 40 includes a trailer ball receiver 62 for engaging a trailer ball coupled to a vehicle. The vehicle is utilized for transporting the mobile obstacle apparatus 15 to different locations. A plurality of chassis telescoping jacks 64 may be coupled to the chassis 40 for stabilizing the chassis 40 while utilizing the mobile obstacle apparatus 10.

(36) A frame 80 extends between a proximal end 82, a distal end 84, a first side 86, a second side 88, an upper side 90 and a lower side 92. A hinge 100 pivotably couples the chassis 40 and the frame 80 for positioning the frame 80 in an inclined orientation 102 relative to the chassis 40.

(37) A first drum 110 is rotatably coupled to the frame 80. A second drum 112 is rotatably coupled to the frame 80. A belt 120 encircles the first drum 110 and the second drum 112 for defining a continuous loop belt system 122. A drive 124 engages the continuous loop belt system 122 for creating a displacement in the belt 120. The belt 120 defines an upper belt surface 126 for the individual 12 to traverse. Preferably, the drive 124 includes a drum motor 128 that is mounted within the first drum 110.

(38) FIG. 28 illustrates the obstacle apparatus 10 including a single continuous loop belt system 122. Alternatively, FIGS. 1-27 illustrate the obstacle apparatus 10 including a third drum 114 rotatably coupled to the frame 80. A fourth drum 116 rotatably coupled to the frame 80. A second belt 130 encircling the third drum 114 and the fourth drum 116 for defining a second continuous loop belt system 132. A second drive 134 engages the second continuous loop belt 132 system for creating a displacement in the second belt 130. The second belt 130 defines a second upper belt surface 136 for a second individual 16 to traverse. Preferably, the second drive includes a second drum motor 138 that is mounted within the third drum 114.

(39) The displacement in the belt 120 defines a descending rotation 129 for increasing the difficulty for the individual 12 to traverse the upper belt surface 126. Similarly, the displacement in the second belt 130 defines a second descending rotation 139 for increasing the difficulty for the second individual 16 to traverse the second upper belt surface 136.

(40) The descending rotation 129 and the second descending rotation 139 may be equivalent rotational speeds or maybe non-equivalent rotational speeds. Furthermore, the descending rotation 129 and the second descending rotation 139 may be independently altered by a control device 140 or a wireless device 142. As the descending rotation 126 and second descending rotation 139 is increased the difficulty to traverse the mobile obstacle apparatus 10 increases. As the descending rotation 126 and the second descending rotation 139 is decreased the difficulty to traverse the mobile obstacle apparatus decreases.

(41) A hydraulic cylinder 150 is coupled between the chassis 40 and the frame 80 for pivoting the frame 80 relative to the chassis 40 about the hinge 100. A hydraulic pump 152 may be coupled to the chassis 40 for providing pressurized hydraulic fluid to the hydraulic cylinder 150. In addition, an electric generator 154 maybe coupled to the chassis 40 for providing an electric current to the drive 124 and the second drive 134. The angular displacement between the chassis 40 and the frame 80 may be increased in order to increase the difficulty for the first individual 12 and the second individual 16 to traverse the upper belt surface 126 and the second upper belt surface 136 respectively. The angular displacement between the chassis 40 and the frame 80 may be decreased in order to decrease the difficulty for the first individual 12 and the second individual 16 to traverse the upper belt surface 126 and the second upper belt surface 136 respectively. Furthermore, the angular displacement between the chassis 40 and the frame 80 may be altered by the control device 140 or the wireless device 142.

(42) A platform 160 is coupled to the proximal end 82 of the frame 80 for supporting the individual 12 and the second individual 16 after traversing the upper belt surface 126 and the second upper belt surface 136. The platform 160 may include a main platform 162, a primary platform 164 and a secondary platform 166. A platform hinge 168 may pivotably couple the primary platform 164 with the main platform 162. Similarly, a platform hinge 168 may pivotably coupled the secondary platform 166 with the main platform 162.

(43) As best shown in FIGS. 1-12, preferably the primary platform 164 and the secondary platform 166 are positioned in a vertical orientation for transporting the mobile obstacle apparatus 10. During the function of the mobile obstacle apparatus 10 the primary platform 164 and the secondary platform 166 are positioned into a horizontal orientation.

(44) A railing 170 is coupled to the platform 160 for preventing individual 12 and or second individual 16 from falling from the platform 160. More specifically, the railing 170 may include a main railing 172, a primary railing 174 and a secondary railing 176. The main railing 172 may be removably engaged with the main platform 162. The primary railing 174 is preferably removably coupled with the primary platform 164. The secondary railing 176 is preferably removably coupled to the secondary platform 166. The railing 170 maybe additionally supported by a plurality of platform telescoping jacks 180.

(45) A slide 200 may be coupled to the frame 80 for positioning the individual 12 from the platform 160 to the surface 30. As shown in FIGS. 1-16 and FIG. 28 the slide 200 may include a tubular member 202. The tubular member 202 defines an interior rigid sliding surface 204 extending between a proximal end 206 and a distal end 208. The proximal end 206 defines an upper entrance aperture 210 and may further include an upper entrance lip 212 for assisting the individual 12 in entering the tubular member 202. Furthermore, the distal end 208 includes a lower exit aperture 214 and may further include a lower exit lip 216 for assisting the individual 12 in exiting the tubular member 202.

(46) The tubular member 202 is preferably coupled to the frame 80 by a pivot 220. The pivot 220 positions the tubular member 202 between a generally vertical orientation 222 relative to the upper belt surface 126 and a generally horizontal orientation 224 relative to the upper belt surface 126. The tubular member 202 would be positioned into the generally vertical orientation 222 during transportation of the mobile obstacle apparatus 10. Once the mobile obstacle apparatus 10 is positioned for operation, the tubular member 202 would be positioned into the generally horizontal orientation 224.

(47) The tubular member 202 may be supported by a tubular member support frame 226. Preferably, the pivot 220 is secured between the frame 80 and the tubular member support frame 226. Slide telescoping jacks 228 may be fastened to the tubular member support frame 226 and engage the surface 34 supporting the tubular member 202.

(48) A panel 230 may be coupled to the pivot 220. The panel 230 extends between a proximal end 232 and a distal end 234. The pivot 220 pivots the panel 230 between a generally horizontal orientation 236 during the tubular member 202 in the generally vertical orientation 222 and a generally vertical orientation 238 during the tubular member 202 in the generally horizontal orientation 224. The generally vertical orientation 238 of the panel 230 defines a retaining wall 240 for maintaining the individual 12 above the frame 80. The retaining wall 240 may include a cushion layer 242 to pad the individual 12 upon contact with the retaining wall 240. The cushion layer 242 may include a L-shaped cushion panel 244 wherein a first cushion layer is positioned in a horizontal position adjacent to the belt 120 and a second cushion layer is positioned in a vertical position adjacent to the retaining wall 240.

(49) As shown in FIGS. 1-16 the obstacle apparatus 10 may include a second slide 300. The second slide 300 may include a second tubular member 302. The second tubular member 302 defines an interior rigid sliding surface 304 extending between a proximal end 306 and a distal end 308. The proximal end 306 defines a second upper entrance aperture 310 and may further include an upper entrance lip 312 for assisting the individual 12 in entering the second tubular member 302. Furthermore, the second distal end 308 includes a second lower exit aperture 314 and may further include a second lower exit lip 316 for assisting the individual 12 in exiting the second tubular member 302.

(50) The second tubular member 302 is preferably coupled to the frame 80 by a second pivot 320. The second pivot 320 positions the second tubular member 302 between a second generally vertical orientation 322 relative to the second upper belt surface 136 and a second generally horizontal orientation 324 relative to the second upper belt surface 136. The second tubular member 302 would be positioned into the second generally vertical orientation 322 during transportation of the mobile obstacle apparatus 10. Once the mobile obstacle apparatus 10 is positioned for operation, the second tubular member 302 would be positioned into the second generally horizontal orientation 324.

(51) The second tubular member 302 may be supported by a second tubular member support frame 326. Preferably, the second pivot 320 is secured between the frame 80 and the second tubular member support frame 326. Second slide telescoping jacks 328 may be fastened to the second tubular member support frame 326 and engage the surface 34 supporting the second tubular member 302.

(52) A second panel 330 may be coupled to the second pivot 320. The second panel 330 extends between a second proximal end 332 and a second distal end 334. The second pivot 320 pivots the second panel 330 between a second generally horizontal orientation 336 during the second tubular member 302 in the second generally vertical orientation 322 and a second generally vertical orientation 338 during the second tubular member 302 in the second generally horizontal orientation 324. The second generally vertical orientation 338 of the second panel 330 defines a second retaining wall 340 for maintaining the second individual 16 above the frame 80. The second retaining wall 340 may include a second cushion layer 342 to pad the second individual 16 upon contact with the second retaining wall 340. The second cushion layer 342 may include a L-shaped cushion panel 344 wherein a first cushion layer is positioned in a horizontal position adjacent to the second belt 130 and a second cushion layer is positioned in a vertical position adjacent to the second retaining wall 340.

(53) As shown in FIGS. 17-26, the slide 200 may include an inflatable bladder 260 defining an exterior semi-rigid sliding surface 262 extending between a proximal end 264 and a distal end 266. The inflatable bladder 260 includes an inflatable retaining wall 270 adjacent to the frame 80 for maintaining the individual 12 above the frame 80. In addition, the inflatable bladder 260 may include an inflatable exterior wall 272. The inflatable retaining wall 270 and the inflatable exterior wall 272 define an inflatable slide channel 274 for maintaining the individual 12 above the semi rigid sliding surface 262. The inflatable bladder 260 may further include an upper 90 entrance 276 transitioning from the platform 160 into the semi-rigid sliding surface 262. In addition, the inflatable bladder 260 may include a lower 90 exit 278 transitioning from the semi rigid sliding surface 262 to the surface 30. The combination of the belt 120, the platform 160, the upper 90 entrance 276 and the semi-rigid sliding surface 262 defines a general U-shaped path 280. The general U-shaped path 280 provides a smaller surface area that is occupied by the mobile obstacle apparatus 10.

(54) The inflatable bladder 260 may be coupled to the frame 80 by a plurality of frame couplers 282. The plurality of frame couples 282 may include fasteners, looking loop devices, islets and hooks or other fastening means. In addition, the inflatable bladder 260 may be secured to the surface 30 by a plurality of surface couplers 284. The plurality of surface couplers 284 may include ground stakes, ground anchors, weights or other restraining devices.

(55) As shown in FIGS. 17-26, the second slide 300 may include a second inflatable bladder 360 defining a second exterior semi-rigid sliding surface 362 extending between a second proximal end 364 and a second distal end 366. The second inflatable bladder 360 includes a second inflatable retaining wall 370 adjacent to the frame 80 for maintaining the second individual 16 above the frame 80. In addition, the second inflatable bladder 360 may include a second inflatable exterior wall 372. The second inflatable retaining wall 370 and the second inflatable exterior wall 372 defines a second inflatable slide channel 374 for maintaining the second individual 16 above the second semi rigid sliding surface 362. The second inflatable bladder 360 may further include a second upper 90 entrance 376 transitioning from the platform 160 into the second semi-rigid sliding surface 362. In addition, the second inflatable bladder 360 may include a second lower 90 exit 378 transitioning from the second semi rigid sliding surface 362 to the surface 30. The combination of the second belt 130, the platform 160, the second upper 90 entrance 376 and the second semi-rigid sliding surface 362 defines a second general U-shaped path 380. The second general U-shaped path 380 provides a smaller surface area that is occupied by the mobile obstacle apparatus 10.

(56) The second inflatable bladder 360 may be coupled to the frame 80 by a second plurality of frame couplers 382. The second plurality of frame couples 382 may include fasteners, hook and loop devices, islets and hooks or other fastening means. In addition, the second inflatable bladder 360 may be secured to the surface 30 by a second plurality of surface couplers 384. The second plurality of surface couplers 384 may include ground stakes, ground anchors, weights or other restraining devices.

(57) FIG. 27 illustrates the obstacle apparatus 10 including an inflatable bladder 400. The inflatable bladder 400 includes a semi-rigid sliding surface 402 extending between a proximal end 404 and a distal end 406. The inflatable bladder 400 includes a primary inflatable external retaining wall 410 and a second inflatable exterior retaining wall 412 for defining an inflatable slide channel 414. The belt 120 and the second belt 130 in combination with the platform 160 and the inflatable bladder 400 define a linear path 416. Preferably, the frame 80 includes a frame railing 418 for maintaining the individual 12 and the second individual 16 above the frame 80.

(58) The inflatable bladder 400 is coupled to the platform 160 by a plurality of platform couplers 420. The plurality of platform couplers 420 may include fasteners, hook and loop devices, islets in hooks or other fastening devices. In addition, the inflatable bladder 400 may be secured to the surface 30 by a plurality of surface couplers 422. The plurality of surface couplers 422 may include ground stakes, ground anchors, weights or other restraining devices.

(59) FIGS. 7 and 29-31 illustrate a possible construction of the continuous loop belt system 122 and the second continuous the belt system 132. More specifically, the continuous loop belt system 122 and the second continuous belt system 132 may include a peripheral main frame C-channel 430. A plurality of interior C-channels 432 may extend within the peripheral main frame C-channel 430.

(60) A plurality of springs 434 are positioned within the plurality of interior C-channels 432 and extend towards the upper belt surface 126 and the second upper belt surface 136. A lower supporting panel 436 is secured to the plurality of springs 434. The lower supporting panel 436 may include wood, metal or other rigid materials. An upper supporting panel 438 of butts the lower supporting panel 436. The lower supporting panel 436 and the upper supporting panel 438 may be secured together by adhesives, screws or other coupling means. The upper supporting panel 438 may include a polymeric material for avoiding damaging the belt 120 and the second belt 130. The plurality of springs 434 permit displacement and cushioning of the belt 120 and the second belt 130 upon the individual 12 or the second individual 16 falling into the belt 120 and the second belt 130 respectively. By permitting displacement and cushioning of the first belt 120 and the second belt 130 the risk of injury is reduced.

(61) The frame 80 further includes a lower belt plate 442 for covering the second drum 112 and the fourth drum 116. In addition, an upper belt plate 444 covers the first drum 110 and the third drum 114. The lower belt plate 442 and the upper belt plate 444 prevents the individual 12 and the second individual 16 from being waged between the belt 120 and the second belt 130 to the frame 80 respectively.

(62) Preferably, the peripheral main frame C-channel 430 of the continuous loop belt system 122 and the peripheral main frame C-channel 430 of the second continuous loop belt system 132 are coupled by a plurality of coupling C-channels 445.

(63) The obstacle apparatus 10 may further include a tailgate 450 that is pivotably coupled to the frame 80. The tailgate 450 provides a gradual transition from the surface 30 to the continuous loop belt system 122 and the second continuous loop belt system 132. In addition, the tailgate 150 may include a tailgate railing 450.

(64) The present invention further includes the method for providing an obstacle for an individual 12 to traverse. The method comprises the steps of rotating a belt 120 encircling a first drum 110 and a second drum 112 coupled to a frame 80 in a descending direction for the individual 12 to traverse between a first elevation 70 to a second elevation 72. The individual 12 is supported upon a platform 160 after traversing the belt 120 in the second elevation 72. The individual 12 descends upon a slide 200 for positioning the individual 12 from the second elevation 72 to the first elevation 70. The method may further include the steps of rotating a second belt 130 encircling a third drum 114 and a four drum 116 coupled to a frame 80 in a descending direction for a second individual 16 to traverse between the first elevation 70 to the second elevation 72. The second individual 16 is supported upon the platform 160 after traversing the second belt 130 in the second elevation 72. The second individual 16 descends upon a second slide 300 for positioning the second individual 16 from the second elevation 72 to the first elevation 70.

(65) The present disclosure includes that contained in the appended claims as well as that of the foregoing description. Although this invention has been described in its preferred form with a certain degree of particularity, it is understood that the present disclosure of the preferred form has been made only by way of example and that numerous changes in the details of construction and the combination and arrangement of parts may be resorted to without departing from the spirit and scope of the invention.