Method for Applying Spinal Traction

Abstract

A method is provided for treating back pain whereby a person sits comfortably in a seated position in a chair and fastens their upper body above the waist to the seat back and fastens their lower body at just above the buttocks and then by means of leaning back allows the seat back to pull the person's upper body away from their lower body providing spinal traction.

Claims

1. A back traction device including a seat bottom and a seat back; said seat back and said seat bottom joined by a first pivotal connection and; said seat back configured to rotate about said first pivotal connection and; said first pivotal connection permitting said seat back to recline and; a leg support and; said leg support and said seat bottom joined by a second pivotal connection and; said leg support configured to rotate about said second pivotal connection and; said leg support and said seat back configured such that said leg support extends upwardly as said seat back reclines and; a means for securing an individual's buttocks and hips and; a means for securing an individual's torso and; said buttocks and hip securing means configured to engage the individual's lower body and; said torso securing means configured to engage individual's upper body and; whereby a reclining motion of said seat back causes at least one of said means of securing individual's torso or one of said means of securing individual's hips and buttocks to move away from the other thereby providing for stretching of the spine and spinal decompression of the lower back.

2. A back traction device as in claim 1 including a means for securing an individual's pelvic area and at least one anchor point and; said means for securing an individual's pelvic area configured to maintain the user's correct spinal arch and configured to wrap around the individual's sacrum at the rear of the individual's lower back extending outwardly around the hips and forwardly over the thighs to said at least one said anchor point.

3. A back traction device as in claim 2 wherein said means for securing individual's lower body includes a stretchable force resisting element and; said stretchable, force resisting element is engaged with said anchor point such that said stretchable, force resisting element is permitted to stretch as force is applied to said stretchable, force resisting element.

4. A back traction device as in claim 3 wherein said stretchable, force resisting element is an elastic substance or device.

5. A back traction device as in claim 4 wherein said elastic substance or device is of varying resistance such that different amounts of resistance are possible.

6. A back traction device including a seat and seat back and; said seat back and said seat are joined by a first pivotal connection and; said seat and said seat back configured to provide rotation about said first pivotal connection permitting said seat back to recline and; a means for securing the individual's buttocks and hips to said seat and; a means for securing the individual's torso to said seat back and; said buttocks and hip securing means configured to engage the individual's lower body and; said torso securing means configured to engage individual's upper body and; said means for securing individual's hips and buttocks providing a restraining force on individual's hips and buttocks and; said means for securing individual's torso providing a restraining force on individual's upper body providing for at least one of said means of securing individual's torso or one of said means of securing individual's hips and buttocks configured to provide a separating movement of the individual's torso away from the individual's hips and buttocks thereby providing for an amount elongation of the spine.

7. A back traction device as in claim 1 including a releasable locking means; said releasable locking means configured to prohibit reclining of the back traction device until said releasable locking means is released by the operator.

8. A back traction device as in claim 1 including a means for initiating reclining of said seat back and raising of said leg support.

9. A back traction device as in claim 8 wherein said means of initiating reclining of said seat back and raising of said leg support is a hydraulic cylinder.

10. A back traction device as in claim 8 wherein said means of initiating reclining of said seat back and raising of said leg support is a linear actuator.

11. A back traction device as in claim 8 including a control means; said control means configured to modulate the force applied to said means for initiating reclining of said seat back and raising of said leg support.

12. A back traction device as in claim 6 including a releasable locking means; said releasable locking means configured to prohibit reclining of the seat back until said releasable locking means is released by the operator.

13. A back traction device as in claim 6 including a means for initiating reclining of said seat back.

14. A back traction device as in claim 6 wherein said means of initiating reclining of said seat back is hydraulic cylinder.

15. A back traction device as in claim 6 wherein said means of initiating reclining of said seat back is a linear actuator.

16. A back traction device as in claim 6 including a control means and; said control means configured to modulate the force applied to said means for initiating reclining of said seat back.

17. A method for enabling a user to perform traction of the spinal column comprising: Providing a seat bottom and seat back and; a pivoting mechanism between seat bottom and seat back and; Employing a strap to engage the user's upper body and; Employing a strap to engage the user's lower body and; Providing at least one strap engaging the user's upper body or at least one strap engaging the user's lower body employing a pulling action on the user's upper body or lower body; Employing a reclining seat back enabling the user's upper body to be pulled away from the user's buttocks, hips and lower body or the user's lower body to be pulled away from the user's upper body enabling the user to place his body in traction and; enabling the user to initiate traction of the spinal column.

18. A back traction device as in claim 1 wherein means of connection between said leg support and said seat back is configured to be adjustable.

19. A back traction device as in claim 1 including an elastic substance or device configured to return said seat back to the seated position in the absence of an operator.

20. A back traction device as in claim 1 wherein the device is separable into smaller individual parts for ease of packaging and economical shipment.

21. A back traction device as in claim 1 including means for adjusting location of upper body securing device.

22. A back traction device as in claim 1 and claim 6 including an elastic substance or device and; said elastic substance or device configured to connect torso securing device and pelvic securing device to provide optimum placement of said torso securing device and said pelvic securing device relative to the operator.

23. A back traction device as in claim 1 and claim 6 including a means for securing said lower body strap a defined distance above the seat bottom.

24. A back traction device as in claim 1 including independently adjustable back cushions.

25. A back traction device as in claim 1 wherein upper body securing device and lower body securing device are adjustable for different body sizes.

26. A back traction device including a seat bottom and seat back and; said seat back and said seat bottom joined by a first pivotal connection and; said seat bottom and said seat back configured to provide rotation about said first pivotal connection and; said first pivotal connection configured to permit said seat back to recline relative to said seat bottom and; a leg support and; said leg support and said seat bottom joined by a second pivotal connection and; said leg support and said seat bottom configured to provide rotation about said second pivotal connection and; said leg support configured to extend upwardly as said seat back reclines and; a means of connection between said leg support and said seat back and; said means of connection configured to initiate movement of said leg support when said seat back pivots about said first pivotal connection and; an anchor point and; a means for securing an individual's buttocks and hips and; said anchor point configured to engage said means for securing individual's buttocks and hips and; a means for securing an individual's torso to said seat back and; said first pivotal connection configured to permit a reclining motion of said seat back providing a separation of said torso securing means away from said buttocks securing means and; said buttocks and hip securing means configured to engage the individual's lower body and; said torso securing means configured to engage individual's upper body and; said means for securing individual's hips and buttocks providing a restraining force on individual's hips and buttocks and; providing for at least one of said means of securing individual's torso or one of said means of securing individual's hips and buttocks configured to provide a separating movement of the individual's torso away from the individual's hips and buttocks or the individual's hips and buttocks away from the individual's torso thereby providing for an amount of decompression of the spine and stretching of the lower back.

27. A method for enabling a user to perform a decompression of the spinal column comprising: Providing a seat bottom and seat back and; Providing a pivoting mechanism between seat bottom and seat back and; providing a leg support and; providing a pivoting mechanism between seat bottom and leg support and; providing for the leg support to raise the user's legs as the seat back reclines and; Employing a strap to engage the user's upper body and; Employing a strap to engage the user's lower body and; Providing at least one strap engaging the user's upper body or at least one strap engaging the user's lower body employing a pulling action on the user's upper body or lower body; Employing a reclining seat back enabling the user's upper body to be pulled away from the user's buttocks, hips and lower body or the user's lower body to be pulled away from the user's upper body enabling the user to place his body in traction and; enabling the user to initiate decompression of the spinal column.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0038] FIG. 1 is a pictorial view of the present invention in the upright position.

[0039] FIG. 2 is a pictorial view of the present invention in the reclined position.

[0040] FIG. 3 is a pictorial view of the present invention in the upright seated position from behind and beneath.

[0041] FIG. 4 is a pictorial view of the present invention in the reclined position from beneath and to the right.

[0042] FIG. 5 is a left side view of the present invention in the upright position with an individual shown in dotted lines.

[0043] FIG. 6 is a left side view of the present invention in the reclined position with an individual shown in dotted lines.

[0044] FIG. 6A is a left side view of the present invention in both the upright and reclined position with an individual shown in dotted lines.

[0045] FIG. 7 is a view of the locking mechanism for the leg support shown in the locked position or dotted in the unlocked position.

[0046] FIG. 8 is a rear view of the invention showing the seat backs and the strap anchors and the top straps of the upper body strap and its ability to be adjusted through the D rings to accommodate different size users.

[0047] FIG. 9 is a downward view of the seat bottom, lower strap with elastomers looped over anchor points and anchor point support tube shown in the upright position and the leg rest shown in the upright position.

[0048] FIG. 10 shows elastic material between the upper body strap and the lower body strap in the relaxed position.

[0049] FIG. 11 shows the ability of elastic material between the upper body strap and the lower body strap to stretch as the upper body strap is moved away from the lower body strap.

[0050] FIG. 12 shows the ability of the present invention to recline from the seated position to the supine or reclined position with the operator dotted in for reference.

[0051] FIG. 13 shows the various movements of the straps, elastomers and the operator as the invention reclines from the upright seated to the reclined supine position. The operator's body position can be seen to shift relative to the seat back as the invention reclines.

[0052] FIG. 14 shows a side view of the present invention indicating the ability of elastomers to stretch at A and C.

[0053] FIG. 15 shows a side view of the invention in the upright position with hydraulic actuator between the vertical support and the seat back tube in the collapsed on non-extended position.

[0054] FIG. 16 shows a side view of the present invention in the reclined position with the hydraulic actuator between the vertical support and the seat back tube in the extended position.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0055] Many materials would be well suited for the manufacturer of the present invention and many processes for manufacturing would be possible to make the present invention. The following description of the invention is one of many possible embodiments of the present invention and is put forth as a preferred embodiment but not as by limitation to a particular material or process of manufacturer.

[0056] It will be appreciated that the following description of the invention is not in a particular order or sequence but one possible combination of parts which will enable the structure of the invention to be produced.

[0057] FIG. 12 shows the individual in both the seated and reclined position and will be referred to for the purpose of explaining in detail the operation of the present invention. When the operator is seated, the lower strap 25 is wrapped around the sacral area of the operator's lower back then wraps around the hips, extends over the thighs and connects to the front anchor point 47 between the operator's legs in front of the seat 24. At this time the adjustable strap 25 may be slightly tightened putting minimal tension in the elastomer loops 26 at the end of the strap 25 on both sides where these loops attach to their respective anchor points 47. In FIG. 5, it will be noted that the operator's head is above the top back support pad 40 in this position and the torso strap 27 is horizontal and essentially perpendicular to the operator's body at the waist and secured around the waist, in the preferred embodiment, just below the ribcage. In this position the operator's legs would be bent at the knees and the feet on or near the floor. As the operator reclines the upper body strap 27, because it is attached to the seat back moves away from the anchor point 47 at the front of the seat 24 pulling the operator's body along with it as it reclines; the greater the recline the greater the distance the upper body is pulled. Simultaneously, the lower body, buttocks and hips is pulled along with the upper body along the seat and away from the anchor point 47. As this happens, the lower strap 25, which is wrapped around the hips and sacral area also attempts to follow the body and in so doing stretches the elastomer loops 26 at the ends of the lower body strap 25. As the elastomer loops 26 stretch, they try to return to their un-stretched position and in so doing exert a pulling motion on the lower body at the buttocks and hips. While this is happening the torso strap 27 engages the upper body just below the ribcage and begins to pull on the upper body and at the same time move the upper body away from the hips and buttocks. The combination of the torso strap 27 pulling the upper body up and away from the front anchor point 47 and the elastomer loops 26 at the ends of the lower body strap 25 pulling the lower body, buttocks and hips back to the front anchor point 47 puts the body in what is referred to as traction. Although significant movement occurs in the elastomer loops 26, the seat back 39 relative to the seat 24, the torso strap 27 relative to the lower strap 25, only a few millimeters of movement occurs in the spinal column. This movement provides decompression of the spinal column or traction of the spine. The present invention provides a very economical and effective device for providing traction and spinal decompression for the millions of people afflicted with non-surgically treatable back pain.

[0058] In FIG. 5 tube 14 is attached to base support tube 13. Many processes would permit this to be accomplished but in the preferred embodiment tube 14 is welded to base support tube 13. Similarly tube 11 is welded to base support tube 12.

[0059] Plate 102, FIG. 5 is welded to the top of tube 14. Plate 111, identical to 102 and not shown is welded similarly to top of tube 14 opposite plate 102. Cap screws and nuts 101 attach plates 102 and 111 to forward end of tube 23. In FIG. 5, the opposite or rearward end of tube 23 is attached to plate 104 and plate 106 not shown by welding. In FIG. 5, plate 105 is welded to ends of plates 104 and 106 respectively forming a boxed end of plates 104, 106 not shown and 105 respectively. Rear tube support 11 is inserted in between plate 104 and corresponding plate 106 not shown on the opposite side and is locked into place by cap screw 120 FIG. 4. In FIG. 5, the combination of tubes 11, 12, 13, 14 and 23 and plates 111, 102, 104, 106 and 105 along with cap screws and nuts 101 and 120 make up the main support structure for the preferred embodiment of the present invention. It will be appreciated that this is one means of providing support for the invention but there could be many different combinations to attain the same result and nothing presented herein is to be seen as by limitation.

[0060] In FIG. 5, bracket 107 is welded to tube 23 and likewise bracket 108 is welded to tube 23. Seat pan 22 rests on top of brackets 107 and 108 and is secured by pairs of cap screw and nut combinations 109 and 110, FIG. 3. Pad 24 is attached to seat pan 22. Seat pan 22 along with pad 24 are configured to seat the individual and would be just one of many means appropriate to support a person while seated on the present invention. In place of seat pan 22 and pad 24, webbing could be stretched around a tubing framework to provide a seating area for the individual or an injection molded or blow-molded plastic shape would be adequate to provide seating for the individual while using the invention. In FIG. 3, a pair of handles 16 is attached on each side of seat pan 22 to be gripped by the individual's hands when returning to an upright position.

[0061] In FIG. 3, tube 15 is pivotally connected to plate 104 and 106 by through shoulder bolt 100. In FIG. 3, Plate 19 is welded to bottom of tube 15. In FIG. 3, bolt 18 and spacer 60 (not shown) pivotally secure rod end 21 to plate 19.

[0062] In FIG. 3, tube 39 is journaled to slide into the end of tube 15 and is held in place by pinch bolt 9. A slot is machined into the end of tube 15 to receive alignment pin (not shown) for the purpose of restricting rotation of tube 39 relative to tube 15. In FIG. 3, four pairs of brackets 29, 30, 33 and 38 are welded one to each side, symmetrically to tube 39 for the purpose of attaching backrests. The back rests 92, 93, 94 and 95 are attached by cap screw and nut to brackets 29, 30, 33 and 38 respectively.

[0063] In FIG. 3, backrest support tube 39 and lower tube 15 extend downwardly and are pivotally connected to plates 104 and 106 by means of pivot bolt 100. In FIG. 12, as tubes 15 and 39 along with back rest supports and upper torso strap 27 rotate reward about pivot bolt 100, torso strap 27 moves a distance away from anchor point 47. Correspondingly lower strap 25 moves away from anchor point 47 causing loops 26 to increase in length as shown in FIG. 13, dimension B. During the operation of the preferred embodiment of the present invention, the user's upper body is grasped generally just under the rib cage by torso strap 27. When the user leans back, and the upper body is grasped by torso strap 27, which in turn is secured to tube 39 at approximately seat back rest and pad support bracket 33, the distance as indicated by dimension B increases relative to anchor point 47. In FIG. 5, the user's lower body and pelvic area is grasped by lower strap 25 which wraps around the user's body from the sacral area in the rear around the hips on each side and over the thighs towards the front anchor points 47. In

[0064] FIGS. 10 and 11, strap 25 is able to slide through enclosed material 57, which holds lower strap 25 in position relative to elastic material 60 which holds lower strap 25 in position around the hips and buttocks. Lower strap 25 is in turn secured to anchor point 47 by means of stretchable connections 26 on each end of strap 25. Because the distance B increases as the user leans back and because the user's upper and lower body is grasped respectively by lower strap 25 and upper strap 27, the user's upper and lower body are gently pulled away from each other as strap 27 moves away from strap 25. The actual elongation of the user's spinal column is mere millimeters but the decompression of the vertebrae within the spinal column requires only a subtle movement to possibly provide temporary relief from the discomfort of back pain.

[0065] It will be appreciated that this movement of the torso away from the hips and lower body of the individual is what is generally referred to in the fields of medicine and physical therapy as traction or more recently as decompression. Generally a small elongation of the spine over a short period of time will result in a feeling of comfort and a feeling of the release of muscle tension or spasming. A gentle stretching of the lower back is effected by the constraint of the torso strap 27 securely fastened about the individual's lower torso just below the rib cage and the hip and lower body constraint 25 wrapped around the individual's buttocks and hips from the sacral area in the rear of the back, forwardly around the hips and over the thighs to the anchor points 47 in front of and between the user's legs as the individual leans back and the upper strap 27 moves away from the lower strap 25.

[0066] Pads are attached to back rests pans 92, 93, 94 and 95 which are in turn attached to brackets 29, 30, 33 and 38 respectively to provide padding for and engagement of the individual's back.

[0067] In FIG. 7, latch mechanism 59 is pivotally attached to tube 14 by pivot bolt 72 and is configured to engage latch pin 79 to keep the foot rest from rising and the seat back from reclining before the individual is outfitted with torso strap 27 and lower strap 25.

[0068] In FIGS. 3 and 6, tube 42 is pivotally is welded to plate 43 which is pivotally attached by means of through bolt 70. Bracket 50 is welded to tube 90. Pan 51 is attached to bracket 50 by means of a cap screw and nut 52. A series of holes 46 are strategically placed in tube 90 for the purpose of engaging the end of rod 45 by means of rod end 48 and pivot bolt 41. Rod end 48 and pivot bolt 41 are configured to permit rotation of rod 45 about holes 46. The opposite end of rod 45 is fitted with rod end 21. Through bolt 18 is connected to plate 19. The above combination of tube 90, rod 45 and plate 19 which is attached to the lower end of tube 15, when the invention is put to use by an individual, permit the controlled reclining of backrest support tube 39 while leg support pad 53 elevates with the individual's legs and the individual moves from a seated position to a supine position, FIG. 12.

[0069] In FIG. 6, it will be appreciated that the location of Rod ends 21 and 48 located at opposite ends of rod 45 can be placed in different locations in tube 90 enabling the present invention to be adjusted to accommodate individuals with different body characteristics. An individual with heavy upper body and light legs may require an adjustment that is different than an individual with light upper body and heavy legs. This adjustment is possible by selecting the correct location of pivot points for rod end 48 in the correct holes in tube 90.

[0070] In FIG. 3, spring 44 is attached to tube 90 and while the invention is in the upright position, spring 44 is in the non-stretched position. In FIG. 4, spring 44 is shown in the stretched position because the invention is shown in the reclined position. It will be appreciated that tube 90 has a series of holes 46, where spring 44 may be attached allowing the return pull force to be adjusted by means of moving the attachment point from one hole to another. More return pressure is possible with the spring attached to the lower holes or the holes at a greater distance from the pivot point 70. The opposite end of spring 44 is attached to plate 106 and pivot bolt 100, hidden from view in the respective figures.

[0071] The seat pan 22 and seat back pans 92, 93, 94 and 95 all have padded cushions attached to provide comfort to the individual when using the present invention. It will also be appreciated that lower body strap 25 is configured to slide back and forth through enclosing material 57 and wrap around the buttocks at the hips forward from the sacral area of the spine traversing around each side of the hips forwardly and over each thigh to be anchored by elastomers 26 at anchor points 47. It will be further appreciated that this routing of the lower body strap, effectively grasping the hips and buttocks is much more effective than the lower body strap presently available in the flat traction table mentioned above. This means of securing the hips and buttocks does not permit slipping of the lower strap or encourage sliding of the pants of the user relative to the user's body. As the user reclines, the buttocks is pulled rearward following the upper body as it is pulled rearward by strap 27 but the lower body strap 25 prohibits movement of the buttocks except to the extent that elastomers, pair 26 allow. Elastomers 26 may be made of differing elasticity resulting in the ability to vary the return force applied to lower body strap 25 thereby applying a tensile force on the lower body applied through the hips and buttocks.

[0072] In FIG. 10 it will be appreciated that torso strap 27 and lower body strap 25 are configured to be joined by elastic material 60. It will be further appreciated that elastic material 60 holds lower body strap 25 in proper vertical alignment with the user's body relative to torso strap 27. As the user reclines, torso strap 27 moves away from anchor point 47, FIG. 6. Elastic material 60 is permitted to stretch relative to lower body strap 25. As the user reclines, torso strap 27 pulls the user's body away from anchor points 47. As the user's body is pulled away from anchor points 47, lower body strap 25 maintains its grasp on the user's lower body and begins to follow the user's body away from anchor points 47. As lower body strap 25 moves away from anchor points 47, elastomers 26 are stretched and begin to pull the user's lower body back toward anchor points 47 resulting in stretching of the lower back and spinal column.

[0073] In FIG. 6 it will be appreciated that anchor point support post 42 is in the up position. In FIG. 1, anchor point support post 42 is in the down position. Anchor point support post 42 is configured to pivot about pivot 70 to permit easy seating and standing and stepping away from the present invention. Pivot 70 permits anchor post 42 to rotate downward and away from seat 24 making seating easier.

[0074] It will further be appreciated that the upper torso is held by adjustable strap 27 which may be securely wrapped around the lower abdomen just below the ribcage. Strap 27 may be adjusted upward or downward relative to seat back bracket 33 to accommodate different size users. After successful adjustment, torso strap 27 may be tightened comfortably and securely about the waist of the user just below the ribcage. It will be further appreciated that the combination of lower body strap 25, elastomers 26 and upper body strap 27 grasp the user's lower body and upper body slightly above and slightly below the waist and gently pull the user's upper body away from the user's lower body providing a gentle stretching of the lower back and spinal column resulting in the application of traction to the lower back and providing spinal decompression.

[0075] In FIGS. 15 and 16 hydraulic actuator 130 is shown in the non-extended position in FIG. 15 and the extended position in FIG. 16. It will be appreciated that by extending or collapsing hydraulic actuator 130, the present invention may be controlled by remote control administered by a doctor or therapist.

[0076] In FIGS. 15 and 16 bottom end of torso strap 27, designated in this part of strap assembly 27 as 61, is shown behind dotted lines attaching to tube 15 by means of screw and flat washer 99. Screw and flat washer 99 keep upper and lower strap assemblies 25 and 27 in proper orientation when the invention is not occupied by an individual and allow strap 25 and strap 27 to be located properly relative the user's body when the user sits down and places lower strap 25 around the hips, over the thighs and attached to anchor point 47 by means of elastomers 26. Then torso strap 27 wraps around the upper body under the ribcage.

[0077] The assembly of the lower and upper body strap can be best appreciated by studying FIGS. 1, 2, 4, 8, 9, 10, 11, 12, 13, 14, 15 and 16. In FIGS. 1, 4 and others, straps 73 are shown sewn to upper body strap 27 near the top of the apex of the strap. The two straps 71 are clamped between seat back bracket 33 and seat back pan 94. D rings 74 are sewn to ends of straps 71 and the tops of back rest straps 73 are woven through D rings 74 to permit adjustment of upper body strap 27 by means of straps 73 to accommodate different sized upper torsos. In the preferred embodiment, strap 27 has a male and female Velcro section at the distal ends of the strap. This allows for the strap 27 to overlap and thereby be adjustable for individuals with different waist sizes. Sewn to the bottom of strap 27 just beneath the apex of the two lateral sections is elastic material 60. Elastic material 60 permits the lower strap 25 to be held in the proper relation to the sacral area of the user's lower back and also stretch to permit the upper body strap 27 to move away from lower body strap 25 when the user reclines from a seated to a supine position. Strap 61, FIG. 10, is sewn to the bottom of elastic material 60 and continues toward the bottom of seat back tube 15. In FIGS. 10 and 11, an envelope of material 57 is sewn around lower strap 25 and 57 is in turn sewn to strap assembly 73 and 61. Envelope 57 permits strap 25 to slide through envelope 57 permitting strap 25 to be adjusted. Strap 25 is adjustable to permit the amount of pull on the lower body to be adjusted to suit the amount of spinal decompression or the amount of traction force applied to the lower back of the user. As strap 25 is progressively tightened, loops 26 stretch progressively further as the user reclines and his or her body is pulled away from anchor points 47 causing stretched loops 26 to pull the lower body back towards the anchor points 47 progressively harder and therefore create a greater amount of movement of the spinal column, greater decompression and more stretching of the lower back. Strap assembly 61, non-stretchable, now continues downward as a single strap and attaches to lower seat back tube 15 at screw and washer 99. Anchor point 99 keeps the upper and lower body straps in approximately the correct position relative to the user's body.

[0078] As the user reclines, loops 26 and elastic material 60 stretch in length from B to B and from C to C respectively, in FIGS. 14 and 13.

[0079] It will be appreciated that elastic material 60 is sufficiently strong to hold lower body strap 25 at the sacral area of the user's lower back. Elastic material 60 stretches as the user reclines permitting upper body strap 27 to move away from lower body strap 25.

[0080] Although in the preferred embodiment the upper body strap is secured about the individual just below the ribcage this is not meant to be a limitation of the present invention. Any location of the upper body strap which enables the present invention to comfortably grasp the user's upper body is considered to be part of the present invention.

[0081] In the preferred embodiment the upper and lower body strap assembly is very important. The upper body strap is designed to drop downward as it circles the user's upper body just under the ribs and encloses the torso in the front of the user by means of the Velcro strap sections. Likewise the lower strap is designed to wrap around lower body beginning at the rear of the user's back at the sacral area around the hips and over the thighs and forward to the securing points at anchors 47. This path of the lower strap 25 effectively grasps the user's lower body in a manner that is comfortable, does not slip and helps maintain a correct arch to the lower back.

[0082] /Mike Lofgren/

[0083] /Sean Harrington/

[0084] /Brian Stewart/