U.S. patent application number 10/211178 was filed with the patent office on 2004-02-05 for adjustable instability apparatus for exercising, balancing, recreation and physical rehabilitation activities.
Invention is credited to Slone, Bobby.
Application Number | 20040023766 10/211178 |
Document ID | / |
Family ID | 31187526 |
Filed Date | 2004-02-05 |
United States Patent
Application |
20040023766 |
Kind Code |
A1 |
Slone, Bobby |
February 5, 2004 |
Adjustable instability apparatus for exercising, balancing,
recreation and physical rehabilitation activities
Abstract
The invention (49), an adjustable instability apparatus for
exercising, balancing, recreation and physical rehabilitation
activities, is described comprising an air spring assembly (48), a
bleeder valve with seal assembly (46), a bearing assembly (66) and
flanged button head cap screws (38). The air spring assembly (48)
consists of a molded rubber resilient inflatable bladder (22) that
can be selectively inflated or deflated, and is surrounded by a
girdle hoop (80) filled with multiple strands of wire (24) which
are molded into the resilient rubber bladder (22). A substantially
round, flat and rigid top plate (20) equipped with multiple
threaded blind nuts (28) is crimped and sealed to the top portion
of the bladder (22). A substantially round, rigid bottom plate (26)
with the central portion concaved inward having a threaded open nut
(88) with multiple threaded blind nuts (28) is crimped and sealed
to the bottom portion of the bladder (22).
Inventors: |
Slone, Bobby; (Ravenna,
OH) |
Correspondence
Address: |
Bobby Slone
3178 Jay Street
Ravenna
OH
44266
US
|
Family ID: |
31187526 |
Appl. No.: |
10/211178 |
Filed: |
August 5, 2002 |
Current U.S.
Class: |
482/146 |
Current CPC
Class: |
A63B 2208/0214 20130101;
A63B 2022/0033 20130101; A63B 2208/0228 20130101; A63B 26/003
20130101; A63B 2208/0242 20130101; A63B 23/1236 20130101; A63B
22/18 20130101 |
Class at
Publication: |
482/146 |
International
Class: |
A63B 022/14; A63B
022/16 |
Claims
What is claimed is:
1. An adjustable instability apparatus for exercising, balancing,
recreation and physical rehabilitation activities comprising: a
rotating rigid top for said exercising, balancing, recreation and
physical rehabilitation activities; an inflatable bladder having a
top portion and a bottom portion; a flow regulating device for
selectively inflating and deflating said bladder; a rigid top plate
connected and sealed to said top portion of said bladder; and a
rigid bottom plate connected and sealed to said bottom portion of
said bladder.
2. The apparatus of claim 1 further comprising: means for securing
devices to top side of said rigid top plate and bottom side of said
rigid bottom plate, generally using multiple threaded fasteners and
multiple threaded nuts.
3. The apparatus of claim 1, wherein said rigid top plate and said
rigid bottom plate are generally comprised of metal.
4. The apparatus of claim 1, wherein said bladder may be comprised
of multiple sections.
5. The bladder of claim 4, wherein said bladder possess means,
usually a girdle hoop, to maintain shape, stability and integrity
of said multiple sections.
6. The bladder of claim 5, wherein said bladder is generally
cylindrical in shape.
7. The bladder of claim 6, wherein said bladder bellows upward
toward said rigid top plate and downward toward said rigid bottom
plate when inflated.
8. The apparatus of claim 1 further comprising: means for
connecting flow regulating device, usually a threaded regulating
valve, is generally threaded into said rigid bottom plate.
9. The flow regulating device of claim 8 is usually threaded into a
central cavity located on the bottom side of said rigid bottom
plate.
10. The flow regulating device of claim 9 further comprising: means
for sealing flow regulating device, generally a seal ring between
said flow regulating device and said central cavity on said bottom
side of said rigid bottom plate.
11. The flow regulating device of claim 10 further comprising:
means for regulating the volume and rate of flow, generally a
threaded regulating valve threaded into said central cavity on said
bottom side of said rigid bottom plate.
12. The apparatus of claim 1, wherein said rotating rigid top is
rotated by a rotating device.
13. The rotating device of claim 12 is usually a bearing and
generally connected to the bottom side of said rigid bottom plate
of said apparatus.
14. The rotating device of claim 13 further comprising: means for
securing said rotating device, usually to said bottom side of said
rigid bottom plate, generally comprising multiple threaded
fasteners and multiple threaded nuts.
Description
FIELD OF THE INVENTION
[0001] The present invention generally relates to the field of
exercising, balancing, recreation and physical rehabilitation
activities devices. More particularly, the present invention
relates to the field of exercising, balancing, recreation and
physical rehabilitation activities equipment, using an adjustable
instability apparatus (air spring assembly) as the foundation.
BACKGROUND OF THE INVENTION
[0002] It is well known in the prior art that balancing and
exercising devices consist of various foundations such as circular
balls, rounded bases, wedges and coiled spring assemblies. In most
cases, the circular balls, rounded bases, wedges and coiled spring
assemblies are made of wood, plastic, metals or other hard material
and do not have resilience in them, and, therefore, are harder to
use for exercising and balancing, and harder to stimulate the
proprioceptors (little sensors at the end of the nerves) in the
muscles, tendons and joints. Another type of prior art device
comprised of a rotating bearing assembly only; this limits the
usefulness and benefits of the device. Most devices also offer no
way of connecting various types of appliances to the top and bottom
of the foundation assembly. Most foundation devices do not offer a
resilient foundation with adjustable instability in all directions
to include bounce or spring up and down, tilt, flex or pivot front
to back, side to side or any other angle, up-and-down elevation
adjustment and rotation 360 degrees right or left.
[0003] U.S. Pat. No. 5,810,703 issuing to Louis Stack on Sep. 22,
1998 discloses an exercise board having central mounting with multi
level adjustable spacer. A wobble board is provided with the
capability of varying the height between its sphere section and
board. This device gives you the ability to adjust at set intervals
the height that the wobble board is off the floor.
[0004] U.S. Pat. No. 5,328,421 issuing to Charles Stanalajczo on
Jul. 12, 1994 discloses a closed kinetic chain exercise device and
method, a rehabilitation device for conditioning the lower
extremity joints of a user. The device consists of a platform and a
pivot plate or wedge.
[0005] U.S. Pat. No. 5,062,629 issuing to Jeffrey Vaughan on Nov.
5, 1991 discloses a surfing simulator, a simulator which uses, in
combination, a ball bearing turntable, an adjustable spring plate
assembly and a flexible mounting pad to connect a riding deck to a
stationary supporting base.
[0006] U.S. Pat. No. 5,358,463 issuing to Jesus Fuentes on Oct. 25,
1994 discloses an exercise device, a device for doing push-ups by
using push-up handles and assembly mounted to a tapered roller
bearing assembly. This allows the user to rotate hands and arms
during the push-up process.
[0007] All of the referenced devices above are deficient in one or
more of the following major advantages that are incorporated into
the new invention. They include the ability to raise or lower the
top exercising or balancing top plate easily to many heights by
simply opening or closing a bleeder valve, thus increasing or
decreasing the intensity of the desired outcome of the activity,
the ability to bounce or spring up and down, the ability to tilt,
flex or pivot in any direction forward, backward, side to side or
any degree in between, the ability to rotate 360 degrees right or
left, or the ability to attach other appliances to the top plate
and or bottom plate to increase usefulness and benefits of the
activities and exercises performed.
[0008] The air spring assembly of the present invention is designed
so that a user may carry out proprioceptive training,
strengthening, exercising, balancing, recreation and physical
rehabilitation by making use of full range of motion, resistance
and balancing activities that are possible with this new invention.
This is accomplished by varying the instability or stability of the
air spring assembly simply by removing or adding air, and rotating
360 degrees right or left by use of a bearing assembly attached to
the bottom of the air spring assembly.
SUMMARY OF THE INVENTION
[0009] Briefly stated and in accordance with the preferred
embodiment of the present invention, an adjustable instability
apparatus for exercising, balancing, recreation and physical
rehabilitation activities consists of an air spring assembly
bleeder valve with seal assembly, bearing assembly and flanged
button head cap screws. The air spring assembly is comprised of a
molded rubber resilient inflatable bladder that can be selectively
inflated or deflated and is surrounded by a girdle hoop that is
filled with multiple strands of wire which are molded into the
bladder. A substantially round, flat and rigid top plate equipped
with multiple threaded blind nuts is crimped and sealed to the top
portion of the bladder, and a substantially round rigid bottom
plate with the central portion concaved inward having a threaded
open nut equipped with multiple threaded blind nuts is crimped and
sealed to the bottom portion of the bladder.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] Referring particularly to the drawings for the purpose of
illustration only and not limitation, there are illustrated:
[0011] FIG. 1 shows an exploded perspective view of the preferred
embodiment of the present invention, an adjustable instability
apparatus for exercising, balancing, recreation and physical
rehabilitation activities with an inflated bladder.
[0012] FIG. 2 shows a cross-sectional view taken along line 90-90
of FIG. 1.
[0013] FIG. 3 shows a perspective view of another embodiment of the
present invention, an adjustable instability apparatus for
exercising, balancing, recreation and physical rehabilitation
activities with an inflated bladder, push-up handle and push-up
handle plate.
[0014] FIG. 4 shows a cross-sectional view taken along line 92-92
of FIG. 3.
[0015] FIG. 5 shows an exploded perspective view of another
embodiment of the present invention, an adjustable instability
apparatus for exercising, balancing, recreation and physical
rehabilitation activities with an inflated bladder and balance
board assembly.
[0016] FIG. 6 shows a side view application example of the
preferred embodiment of the present invention, an adjustable
instability apparatus for exercising, balancing, recreation and
physical rehabilitation activities with an inflated bladder,
balance board, and posterior view of the lower legs and feet of a
human body balancing and exercising on a balance board.
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0017] Although specific embodiments of the present invention will
now be described with reference to the drawings, it should be
understood that such embodiments are by way of example only and
merely illustrative of but a small number of the many possible
specific embodiments which can represent applications of the
principles of the present invention. Various changes and
modifications obvious to one skilled in the art to which the
present invention pertains are deemed to be within the spirit,
scope and contemplation of the present invention as further defined
in the appended claims.
[0018] Referring to FIG. 1 is an exploded perspective view of the
preferred embodiment of the present invention 49, an adjustable
instability apparatus for exercising, balancing, recreation and
physical rehabilitation activities. The invention 49 consists of
the air spring assembly 48, bearing assembly 66 or rotating device,
flanged button head cap screws 38, known as threaded fasteners and
a bleeder valve with seal assembly 46. The air spring assembly 48
comprises of a molded rubber resilient inflatable bladder 22 is
commonly referred to as a bladder, a double bladder or a multiple
section bladder, and is generally cylindrical in shape. The bleeder
valve with seal assembly 46 can selectively inflate or deflate the
bladder 22. The bladder 22 has a top portion and a bottom portion.
The bladder 22 is surrounded by a girdle hoop 80. The girdle hoop
80 surrounds and is molded into the bladder 22 and divides the
bladder into two sections, a top and a bottom. The girdle hoop 80
helps the multiple sections maintain there shape, stability and
integrity. The bladder 22 bellows upward toward the rigid top plate
20 and downward toward the rigid bottom plate 26 when inflated. The
substantially round, flat and rigid top plate 20 is sometimes
called a rigid top. The substantially round, rigid bottom plate 26
is sometimes called a rigid bottom and the bottom side has a
central portion concaved inward, the concaved portion at times is
referred to as a central cavity. The rigid top plate 20 and rigid
bottom plate 26 are generally comprised of metal and also sometimes
referred to as bead plates. Rigid top plate 20 and rigid bottom
plate 26 have multiple threaded blind nuts 28 known as threaded
nuts. The preferred installation method of the multiple threaded
blind nuts 28 is to press them into multiple through bore holes in
the rigid top plate 20 and rigid bottom plate 26, and then welded
to seal them in place. The preferred type of valve and seal
assembly is a bleeder valve with seal assembly 46, which is
comprised of a flat rubber seal 32 at times called a seal ring with
a central through bore hole that is placed over the threaded shaft
of the bleeder valve 30, sometimes referred to as a threaded
regulating valve, drain plug or flow regulating device, for
selectively inflating and deflating the bladder 22. The bleeder
valve 30 is normally a metal threaded hollow hex head plug that has
a through bore hole horizontal to the threads leading into the
hollow center section of the hollow hex head plug. This allows for
the regulation of the volume and rate of flow, of air to flow or
vent into or out of the air spring assembly 48 as the bleeder valve
30 is opened (unscrewed), you have minimum flow and when removed
maximum flow. The through bore hole and hollow center section of
the bleeder valve 30 are commonly referred to as a bleeder hole,
vent hole or pressure relief port. The through bore hole in the
bleeder valve 30 is located slightly above the sealing surface of
the flat rubber seal 32 toward the threaded end of the bleeder
valve 30. The bleeder valve with seal assembly 46 has been used in
diesel fuel systems for many years by companies such as John Deere
Company of Moline, Ill.
[0019] Referring now to FIG. 2 is a cross-sectional view taken
along line 90-90 of FIG. 1. The invention 49 consists of the air
spring assembly 48 which comprises of a bladder 22, surrounded by a
girdle hoop 80, filled with multiple strands of wire 24 which are
molded into the bladder. The bladder 22 has a top portion and a
bottom portion. The circumference of the girdle hoop 80, rigid top
plate 20 and rigid bottom plate 26 are all about the same. The
girdle hoop 80 is molded around the bladder 22 which forms a top
section that bellows upward toward the rigid top plate 20 and a
bottom section that bellows downward toward the rigid bottom plate
26 when inflated. The girdle hoop 80 helps the bladder maintain its
shape, stability and integrity. The preferred method of connecting
and sealing the rigid top plate 20 to the top portion of the
bladder 22 and rigid bottom plate 26 to the bottom portion of the
bladder 22 is by crimping. Rigid top plate 20 and rigid bottom
plate 26 have multiple threaded blind nuts 28. Multiple threaded
blind nuts 28 and multiple flanged button head cap screws 38 are
used in combination to secure various devices such as the bearing
assembly 66 to the bottom side of the rigid bottom plate 26 or top
side of the rigid top plate 20. Rigid bottom plate 26 has a central
portion that is concaved inward. The preferred mounting location of
the threaded open nut 88 is in the center of the concaved portion
of the rigid bottom plate 26. The preferred installation method of
the threaded open nut 88 is to press it into a through bore hole in
the rigid bottom plate 26 and seal it in place by welding.
[0020] The flat rubber seal 32 or seal ring with a through bore
hole is placed over the threaded shaft of the bleeder valve 30,
then the bleeder valve with seal assembly 46 is placed through the
large through bore access hole 64B in the bottom plate 70, and the
large through bore access hole 64A in the top plate 68 of the
bearing assembly 66. The preferred installation or connecting
method of the bleeder valve with seal assembly 46 or flow
regulating device is to thread it into the threaded open nut 88
located in the central cavity on the bottom side of the rigid
bottom plate 26. This process also seals the bleeder valve with
seal assembly 46 to the invention 49 and makes it an air tight
sealed unit.
[0021] Bearing assembly 66, commonly referred to as a lazy Susan
bearing assembly, is attached to the bottom side of the rigid
bottom plate 26 by using multiple flanged button head cap screws
38. A flanged button head cap screw 38 is placed through the
through bore access hole 60 in the bearing assembly bottom plate
70. The flanged button head cap screw 38 is placed into the through
bore hole 62 in the bearing assembly top plate 68 and then threaded
into the threaded blind nut 28 of the rigid bottom plate 26. The
bottom plate 70 is rotated on the ball bearings 72 until the next
through bore hole 62 in the top plate 68 is aligned with the
through bore access hole 60 in the bottom plate 70, then the
installation of another flanged button head cap screw 38 is
repeated. This process attaches the bearing assembly 66 to the
rigid bottom plate 26. This allows the air spring assembly 48 to
rotate 360 degrees right or left, thus permitting the rigid top
plate 20 of the air spring assembly 48 to rotate 360 degrees right
or left. The bearing assembly 66 is currently manufactured and sold
by Triangle Manufacturing Company of Oshkosh, Wis.
[0022] Referring now to FIG. 3 is a perspective view of another
embodiment of the present invention with a push-up handle 36,
push-up handle plate 42, molded rubber inflatable resilient bladder
40 commonly referred to as a bladder, a single bladder or a single
section bladder and bearing assembly 66. This embodiment consists
of a generally cylindrical bladder 40 that has a top portion and a
bottom portion. The top portion of the bladder 40 bellows upward
toward the rigid top plate 20 and the bottom portion of the bladder
40 bellows downward toward the rigid bottom plate 26 when inflated.
A substantially round, flat, rigid top plate 20 and a substantially
round, rigid bottom plate 26 with the center portion concaved
inward are generally comprised of metal and are also sometimes
referred to as bead plates. Rigid top plate 20 and rigid bottom
plate 26 have multiple threaded blind nuts 28 (shown in FIG. 4).
The push-up handle 36 normally is formed from round metal and is
generally attached by welding 44 and the push-up handle plate 42,
also usually made of metal. Push-up handle plate 42 has a centrally
located large through bore hole. Push-up handle plate 42 is
connected to the rigid top plate 20 by the preferred method of
placing multiple flanged button head cap screws 38 into multiple
through bore holes in the push-up handle plate 42. Flanged button
head cap screws 38 are threaded into the multiple threaded blind
nuts 28 (shown in FIG. 4).
[0023] Referring now to FIG. 4 is a cross-sectional view with the
bladder 40 inflated taken along line 92-92 of FIG. 3. The preferred
method of connecting and sealing the rigid top plate 20 to the top
portion of the bladder 40 and rigid bottom plate 26 to the bottom
portion of the bladder 40 is by crimping. Rigid top plate 20 and
rigid bottom plate 26 have multiple threaded blind nuts 28. Push-up
handle 36 is connected to the push-up handle plate 42 by welding 44
which is the preferred method. Push-up handle plate 42 is connected
to the rigid top plate 20 by the preferred method of placing
multiple flanged button head cap screws 38 into multiple through
bore holes in the push-up handle plate 42. The flanged button head
cap screws 38 are threaded into the multiple threaded blind nuts 28
of the rigid top plate 20. This same process can be used to secure
other devices to the rigid top plate 20 or the rigid bottom plate
26.
[0024] The flat rubber seal 32 with a through bore hole is placed
over the threaded shaft of the bleeder valve 30, then bleeder valve
30 is threaded into the threaded open nut 88 which is located in
the central portion of the concaved area of the rigid bottom plate
26. The bladder 40 can be selectively inflated or deflated using
the bleeder valve 30 and flat rubber seal 32. The flat rubber seal
32 and bleeder valve 30 are shown in the open (unscrewed)
position.
[0025] The flat rubber seal 32 and bleeder valve 30 can be
operated, removed or replaced through the large through bore access
hole 64A in the bearing assembly top plate 68 and large through
bore access hole 64B in the bearing assembly bottom plate 70. The
centrally located concaved area of the rigid bottom plate 26 is
deep enough to allow the bleeder valve 30 and flat rubber seal 32
to reside within the concaved area of the rigid bottom plate
26.
[0026] Bearing assembly 66 is attached to the rigid bottom plate 26
by using multiple flanged button head cap screws 38. A flanged
button head cap screw 38 is placed through the through bore access
hole 60 in the bearing assembly bottom plate 70. A flanged button
head cap screw 38 is placed into the through bore hole 62 (shown in
FIG. 2) in the bearing assembly top plate 68 and then threaded into
a threaded blind nut 28 of the rigid bottom plate 26. The bearing
assembly bottom plate 70 is rotated on the ball bearings 72 until
the next through bore hole 62 in the top plate 68 is aligned with
the through bore access hole 60 in the bearing assembly bottom
plate 70, then the installation of another flanged button head cap
screw 38 is repeated. This process attaches the bearing assembly 66
to the rigid bottom plate 26.
[0027] Next referring to FIG. 5 is an exploded perspective view of
another embodiment of the present invention with a balance board
assembly 78, molded rubber inflatable resilient bladder 82, is
commonly referred to as a bladder, a triple bladder or a multiple
section bladder, bearing assembly 66, multiple flanged button head
cap screws 38, and bleeder valve with seal assembly 46. This
embodiment consists of a bladder 82 and is generally cylindrical in
shape. The bleeder valve with seal assembly 46 can selectively
inflate or deflate the bladder 82. The bladder 82 has a top portion
and a bottom portion. Two girdle hoops 80 filled with multiple
strands of wire 24 (shown in FIG. 2) surround and are molded into
the bladder 82, dividing the bladder into three sections a top,
middle and bottom. The two girdle hoops 80 help the bladder
maintain its shape, stability and integrity. The bladder 82 bellows
upward toward the rigid top plate 20 and downward toward the rigid
bottom plate 26 when inflated. A substantially round, flat, rigid
top plate 20 and the substantially round, rigid bottom plate 26
with the center portion concaved inward are generally comprised of
metal and are sometimes referred to as bead plates. The preferred
method of connecting and sealing the rigid top plate 20 to the top
portion of the bladder 82, and rigid bottom plate 26 to the bottom
portion of the bladder 82 is by crimping. Rigid top plate 20 and
rigid bottom plate 26 have multiple threaded blind nuts 28. The
balance board assembly 78 consists of multiple flanged button head
cap screws 38, self-adhesive, anti-slip grip tape 52, a rectangular
balance board 54, and multiple through bore holes 79. The balance
board 54 is made of wood, sufficient and strong enough for
supporting a human body, and is commonly referred to as the deck of
a skate board. The balance board 54 is connected to the rigid top
plate 20 by inserting multiple flanged button head cap screws 38
into the multiple through bore holes 79 and threading them into the
multiple threaded blind nuts 28 of the rigid top plate 20. Bearing
assembly 66 is connected to the rigid bottom plate 26 by inserting
multiple flanged button head cap screws 38 through the through bore
holes 62 in bearing assembly 66 and threading them into the
multiple threaded blind nuts 28 of the rigid bottom plate 26. The
bleeder valve with seal assembly 46 is installed into the concaved
central area of the rigid bottom plate 26 (shown in FIG. 4). The
bleeder valve with seal assembly 46 is installed through the large
through bore access holes 64A and 64B of the bearing assembly
66.
[0028] Next referring to FIG. 6 is a side view application example
of using the preferred embodiment of the invention 49. Shown is the
posterior view of the lower legs and feet 84 of a human body
balancing and exercising on a balance board assembly 78. The
balance board assembly 78 is connected to the top of the invention
49. The bottom of the invention 49 is resting on the floor 56,
ground or other substantial, generally-horizontal surface.
[0029] Now referring to FIG. 1, the preferred technique of
manufacturing the air spring assembly 48 is to start with a bladder
22, girdle hoop 80, rigid top plate 20 and rigid bottom plate 26
combination, presently sold as Airidec, springs. Currently
manufactured and sold by Firestone of Carmel, Ind., are
particularly suitable after adoption to manufacture the air spring
assembly 48.
[0030] In operation, the size of the invention 49 will vary
depending upon the application. For example, if a large unit is
used, the user would position the bottom of the bearing assembly
66, upon the floor 56 (shown in FIG. 6), ground or other
substantial, generally-horizontal surface. The user then positions
themself upon the rigid top plate 20 in a push-up, sitting,
kneeling, standing or laying position (not shown). The user then
performs the desired activities such as exercising, balancing,
recreation or physical rehabilitation. If desired, two inventions
49, of the same size or different sizes, can be used close
together; set-up will be the same as that of a single invention 49.
Two inventions 49 are great for doing squats, pushups or standing
on when doing upper body dumbbell lifts or other activities to
further enhance proprioception, body core stability, strength and
balance.
[0031] To increase the varied diversity, usefulness and many
benefits of the present invention 49, various appliances or devices
such as a balance board assembly 78 (shown in FIG. 6), push-up
handle 36 with push-up handle plate 42 (shown in FIG. 3) or various
platforms round, square or rectangular (not shown) can be attached
to the rigid top plate 20. These are not part of the invention and
are shown to demonstrate the diversity, usefulness and many
benefits of the present invention.
[0032] A bearing assembly 66 connected to the rigid bottom plate 26
allows for 360 degree rotation right or left.
[0033] Still referring to FIG. 1, the process of increasing or
decreasing the instability or stability is a simple one. With the
invention 49 in hand, you simply open the bleeder valve with seal
assembly 46 by hand or by using a hand tool such as a wrench. Once
opened, you simply apply slight pressure to the bottom plate 26 and
top plate 20 and press them together to remove air from the air
spring assembly 48, or you pull with slight pressure the top plate
20 and bottom plate 26 apart and air is pulled into the air spring
assembly 48 through the bleeder valve with seal assembly 46; when
the desired stability or instability is achieved, you then close
the bleeder valve with seal assembly 46.
[0034] The amount of stability or instability is the amount of
bounce up and down, tilt, flection or bending front to back, side
to side or any other direction offered by the amount of air inside
the air spring assembly 48, and the amount of rotation 360 degrees
right or left offered by the bearing assembly 66 which is attached
to the bottom of the air spring assembly 48.
[0035] If additional stability is needed for physically challenged
or physical therapy patients, the bearing assembly 66 can be
removed. This will increase the stability of the invention 49 by
removing the ability to rotate 360 degrees right or left.
* * * * *