U.S. patent application number 11/412309 was filed with the patent office on 2006-08-24 for trampoline system.
Invention is credited to Mark W. Publicover.
Application Number | 20060189442 11/412309 |
Document ID | / |
Family ID | 22844438 |
Filed Date | 2006-08-24 |
United States Patent
Application |
20060189442 |
Kind Code |
A1 |
Publicover; Mark W. |
August 24, 2006 |
Trampoline system
Abstract
A trampoline system has a rebounding bed and a resilient member
located below the bed at such a position that the bed depresses the
resilient member when the bed is sufficiently depressed by a person
jumping on the bed. The presence of the resilient member makes it
easy tune the system to adjust the performance of the trampoline
and to minimize impacts on a jumper and thereby reduce the
likelihood of bed-impact injuries.
Inventors: |
Publicover; Mark W.;
(Saratoga, CA) |
Correspondence
Address: |
KLARQUIST SPARKMAN, LLP
121 SW SALMON STREET
SUITE 1600
PORTLAND
OR
97204
US
|
Family ID: |
22844438 |
Appl. No.: |
11/412309 |
Filed: |
April 26, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
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10946927 |
Sep 21, 2004 |
7060001 |
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11412309 |
Apr 26, 2006 |
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10240387 |
Sep 27, 2002 |
6846271 |
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PCT/US01/41736 |
Aug 14, 2001 |
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10946927 |
Sep 21, 2004 |
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60225326 |
Aug 14, 2000 |
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Current U.S.
Class: |
482/27 |
Current CPC
Class: |
A63B 5/11 20130101; A63B
21/023 20130101; A63B 2208/12 20130101; A63B 71/022 20130101 |
Class at
Publication: |
482/027 |
International
Class: |
A63B 5/11 20060101
A63B005/11 |
Claims
1. A trampoline system comprising: a frame a rebounding bed
supported by the frame; and a resilient member located below the
bed at such a position that the bed depresses the resilient member
when the bed is sufficiently depressed by a person jumping on the
bed.
2. The trampoline of claim 1 wherein the resilient member is a bed
of planar material that is positioned at a distance below and
extends generally parallel to the rebounding bed and that is
supported by the frame.
3. The trampoline of claim 1 wherein: the frame is supported by a
plurality of legs; and the resilient member is connected to and
supported by the legs.
4. The trampoline of claim 1 wherein the resilient member is a
sheet of fabric that is stretched on the frame.
5. The trampoline of claim 1 wherein the distance between the
rebounding bed and the resilient member is at least six inches.
7. The trampoline of claim 1 wherein resilient member comprises a
cushion member located between below the bed.
8. The trampoline of claim 7 wherein the cushion member comprises
an inflated bladder.
9. The trampoline of claim 8 wherein the bladder is filled with
air.
10. The trampoline of claim 8 wherein the bladder is generally
ring-shaped.
11. The trampoline of claim 8 wherein the bladder has a plurality
of attachment loops adapted for connection to the tethers.
12. The trampoline of claim 11 wherein the loops extend from the
bladder generally toward the frame.
13. The trampoline of claim 8 wherein the bladder is tethered to
the frame by a plurality of elongated tethers extending between the
bladder and the frame.
14. The trampoline of claim 8 wherein the bladder is generally
horizontally centered below the bed.
15. The trampoline of claim 7 wherein: the resilient member further
comprises a bed of planar material that is positioned at a distance
below and that extends generally parallel to the rebounding bed;
and the cushion member is located between the rebounding bed and
the lower bed of planar material.
16. The trampoline system of claim 1 further comprising: a
plurality of upwardly extending poles, each pole being secured to
the frame; and a mat secured to the poles.
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This is a continuation of application Ser. No. 10/946,927,
filed Sep. 21, 2004, which is a continuation of application Ser.
No. 10/240,387, filed Sep. 27, 2002, now U.S. Pat. No. 6,846,271,
which is the National Stage of International Application No.
PCT/US01/41736, filed Aug. 14, 2001, which claims the benefit of
Provisional application Ser. No. 60/225,326, filed Aug. 14, 2000,
all of which prior applications are incorporated herein by
reference.
BACKGROUND AND SUMMARY
[0002] The present invention concerns systems for use with
trampolines to protect trampoline users from injury.
[0003] Trampolines are used for a variety of athletic and
recreational purposes. However, thousands of injuries have resulted
when persons jumping on a trampoline have landed on the rebounding
surface while in an awkward or incorrect body position. These
"on-bed" injuries, according to some medical studies, represent the
majority of trampoline-related emergency room visits. The U.S.
Consumer Products Safety Commission (CPSC) reports that in 1999
approximately 110,000 people were treated in emergency rooms for
trampoline related injuries. Even though this number is half that
of play structure (or swing set) injuries, some in the medical
community have called for a ban on the sale of backyard
trampolines. Accordingly the CPSC and the AAOS have called for
safety improvements to help reduce the number of trampoline
injuries.
[0004] One approach to reducing trampoline injuries has been to
form a wall around the perimeter of a trampoline bed so that when a
jumper lands too near the edge, the wall prevents the jumper from
falling off. Examples are shown in U.S. Pat. Nos. 5,399,132 and
6,053,845. However, these devices do not directly address injuries
that result when users impact the rebounding surface incorrectly or
while in an awkward position. A second approach, the use of a
harness (worn by the jumper) suspended by elastic cords above the
rebounding surface, is an effective way to reduce on-bed, or
rebound surface impact injuries. However, such harnesses are
designed for safely teaching users advanced acrobatics on
high-performance competition trampolines by trained professionals,
making them largely inappropriate for low-performance backyard
trampolines that are used almost entirely for basic jumping
activities and not for advanced acrobatics.
[0005] Injuries suffered during an impact with the rebounding
surface are still occurring in large numbers on backyard trampoline
beds even though these beds are designed to be less responsive and
to have less initial surface tension than gymnastic grade,
competition trampoline beds.
[0006] Low performance backyard trampolines are used very
differently than high performance trampolines used by skilled
competitors for training and competition. For instance, many on-bed
backyard trampoline injuries occur when multiple jumpers are using
the trampoline at the same time as reported in the NEISS data
compiled by the CPSC. Because children enjoy playing together most
families allow more than one child to jump at the same time even
though this practice is strongly discouraged by trampoline
manufacturers, the CPSC, and others experts. Competition
trampolines are used almost exclusively in disciplined environments
for the structured teaching of specific skills. In contrast,
backyard trampolines are largely used for fun, unstructured,
imaginative play activities that are relished by kids and
recommended by child development experts who understand that daily
physical activity significantly enhances learning ability and that
kids need activities to counterbalance today's over-structured and
sedentary lifestyles. Unfortunately, these unstructured trampoline
activities can generate on-bed injuries when jumpers land on the
rebounding surface in an awkward body position or when a jumper
lands on a trampoline bed that has been preloaded with the energy
from other jumper impacts.
[0007] There thus remains a need to significantly reduce the
quantity and severity of the on-bed injuries that result from these
playful activities.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008] In the drawings:
[0009] FIG. 1 is an oblique view of a first plural-bed trampoline
system.
[0010] FIG. 2 is an enlarged partial oblique view of the system of
FIG. 1.
[0011] FIG. 3 is an oblique view of the of the system of FIG. 1
with the top bed removed to show internal structure FIG. 4 is an
oblique view of an inflated cushion used between the beds of the
system of FIG. 1.
[0012] FIG. 5 is a perspective view of a second plural-bed
trampoline system.
[0013] FIG. 6 is an enlarged partial perspective view of the system
of FIG. 5.
[0014] FIG. 7 is a schematic view of a spring serving as a cushion
between upper and lower trampoline mats.
DETAILED DESCRIPTION
[0015] The drawbacks of prior systems are overcome by the use of a
trampoline system that employs one or more resilient members 10
located below the rebounding bed 12 of a trampoline. A resilient
member 10 is located at a position selected so that the bed 12
depresses the resilient member 10 when the bed is sufficiently
depressed by a person jumping on the bed.
[0016] Such a trampoline system is effective at reducing on-bed
injuries that result from multiple jumpers and awkward landings.
For instance, many injuries occur when multiple users are jumping
asynchronously, a first jumper deflects the bed and loads springs
with the energy from his fall and now a second jumper lands on the
bed in an awkward position. At this point in time, the bed is
highly tensioned (unforgiving) and has just begun moving rapidly
upward, recycling the energy loaded into the springs by the first
jumpers impact with the bed. In this case a bed/resilient member
system can be used to significantly reduce the impact force being
experienced by the second jumper, thereby helping to prevent an
injury.
[0017] The primary finction of the system is to provide a "softer,"
more cushioned, and shock-absorbing surface on the rebounding bed,
with supplemental delayed support from the resilient member 10 if
and when needed to absorb greater impact loads not fully managed by
the bed.
[0018] The resilient member 10 may comprise a bed of planar
material 14 that is positioned at a distance below and extends
generally parallel to the rebounding bed 16 and that is supported
by a frame 18. For example, FIGS. 1-6 show embodiments that are
double-bed trampolines. A double-bed trampoline uses two rebounding
beds, an upper bed 16 and a lower bed 14 directly below. The upper
bed 16 is configured in the manner of current trampoline systems
system with a rebounding mat stretched on a frame. The lower bed 14
is located directly below and also has a mat that comprises a sheet
of stretched fabric. The spacing between the mats can vary, but
good results are achieved with a spacing of at least six inches for
trampolines of the type common for home use. (More than two beds
could be employed, but the greatest portion of the benefit is
obtained by adding one bed to serve as a resilient member in
addition to the regular rebounding bed 16.)
[0019] Because there are two beds, the upper bed 16 can have fewer
"standard" springs 20 than a single bed trampoline that is required
to safely meet the same performance standards. For example, the
upper bed 16 could have half as many springs (or an equal number of
weaker springs that generate half the net spring resistance, or a
combination of weaker springs and fewer regular springs) as a
conventional single trampoline bed. This configuration would
practically cut in half the impact force that the second jumper's
body would need to absorb and thereby significantly reduce the
likelihood of an injury.
[0020] All things being equal, a bed with less tension is more
forgiving when a jumper first contacts its surface, it absorbs the
impact more slowly and will thus reduce the severity and quantity
of on-bed injuries. Thus, the upper bed 16 will absorb a jumper's
impact more slowly if that bed is supported with fewer and/or
weaker springs than would normally be used for a single bed
trampoline. It is possible to use fewer and/or weaker springs in
the upper bed 16 because the lower bed 14 is present to absorb part
of the impact energy.
[0021] The extended absorption time helps to prevent injuries in
three ways: 1) It allows the jumper more time to reposition his
body into a less awkward or injury-prone position. 2) It allows
more time for the energy from an impact to transfer throughout the
body thereby lessening the stress in any localized area. 3) It
allows the mat to conform more completely to the user's body; it
allows more of the mat to come in contact with the user's body,
spreading the load over a larger area and thereby lessening the
load on a given area, or point of the body. (Springs 20 on the
upper bed 16 are not allowed to ever reach their maximum stretch.
The upper bed 16 can be more porous and move up faster, creating
greater separation between the two beds to allow for more energy to
be absorbed by the first bed 16 prior to an impact with the second
bed 14. This is important when a bed has absorbed the energy and is
in a deflected position from a first jumpers impact.)
[0022] The system shown in FIGS. 1-4 has a frame 18 that includes
two circular rails, upper 24 and lower 26, with the top mat 16
connected by springs 20 to the top of the upper rail and the lower
mat connected by springs 22 to the bottom of the lower rail.
Between the rails 24, 26 are vertical tubes 28 that hold the rails
at a desired spacing from each other. (Although continuous circular
rails are illustrated, it should be appreciated that perimeter
trampoline rails may form various shapes including circles and
rectangles. And the rails most commonly are made of multiple
segments that are joined end-to-end, for example by swage
fittings.)
[0023] The illustrated resilient member 10 also comprises a cushion
member, in the form of an inflated air bladder 26 that is provided
between the beds to help maintain the spacing between the beds
during an impact and to modify the shock-absorbing properties of
the system. Depending on the result desired, appropriate cushions
could be designed so as to prevent the two trampoline beds from
ever coming into contact with one another, or could be designed to
deform and allow mat-to-mat contact when a there is an impact of
sufficient force on the top of the rebounding mat.
[0024] The illustrated bladder is generally ring-shaped and has a
plurality of attachment loops 28 that extend from the bladder
toward the frame 18. The bladder is tethered to the frame 18 by a
plurality of elongated tethers 30, such as lengths of flexible
fabric webbing that extend between the bladder and the frame. The
tethers 30 are secured to the bladder and the frame 18 and hold the
bladder is a position that is generally horizontally centered below
the bed 16. The cushion rests on the lower mat 14 with a small air
gap of about 2-3 inches provided between the top of the cushion and
the upper mat 16. The cushion could be of sufficient elevation as
to be in contact with both mats, but it is advantageous to allow
room for the first mat to descend a small distance before it
encounters the resilient member 10. The upper mat 16 is thus
initially more flexible, and there is less wear on the resilient
member 10 due to friction.
[0025] A number of alternative frame constructions can be used to
provide support for two or more beds. For example, a frame could
have two or more smaller rails spaced apart by angled cross tubing
and configured in a truss-like fashion to create greater strength
with less material weight. Or a frame could be constructed from
single larger tube (oval, square, round, etc.) with a
cross-sectional diameter sufficient to create the desired spacing
between the upper and lower beds.
[0026] The resilient member need not be supported by the same frame
18 that supports the rebounding bed 16 of the trampoline. The
resilient member may, for example, be directly supported by legs 36
that support a frame on which the rebounding bed 12 is stretched,
or may be mounted on the bed 12 itself. Or one or more mats, or
other types of resilient members, could be supported by poles 44
that extend upwardly from a frame.
[0027] The illustrated system includes a plurality of such poles 44
that extend vertically. Each pole 44 extends upwardly from one of
the legs 36. In the illustrated embodiment, each pole 44 is made in
two sections and connected at a swage joint, with the two pieces
secured together by a set screw. A single-piece pole can also be
used, or a pole comprised of more than two pieces secured
end-to-end with swage fittings and set screws can be used. A
generally cylindrical wall 100 of a flexible material is suspended
between the poles 44 to define a chamber above the rebounding
surface 16. Enclosures of this type will be understood by reference
to U.S. Pat. No. 6,261,207.
[0028] In the system shown in FIGS. 5-6, an illustrated lower bed
114 is not directly connected to a circular frame, but instead is
held in place by springs 150 that extend between a mat 114 and
support legs 136 of the trampoline system. An elongated leg bracket
152 serves as the attachment location for each of several springs
that extend to spaced-apart locations on the mat. But in other
embodiments, the springs could be directly attached to the
legs.
[0029] There are still other ways to support a resilient member.
For example, a standard top rail could have several extension
brackets that attach to the top rail and extend below it with one
or more springs of a lower bed are attached near the bottom of each
bracket.
[0030] Still another system uses an inelastic but flexible cord
instead of a bottom rail, with the springs of a lower bed attached
to the cord.
[0031] The resilient member need not be of the same construction as
the rebounding bed. In particular, the resilient member need not be
a bed of conventional trampoline fabric, but could for example be
constructed from multiple crisscrossing elastic cords in various
patterns to form a lower bed.
[0032] It will be appreciated that a number of elements can be
varied to effect the performance of the trampoline system. The size
of the upper and lower rails can be varied, as can the size, shape,
and porosity of the bed materials. The responsiveness of this
system can be adjusted by selecting the upper and lower bed
materials to increase or decrease the airflow through the surfaces
of the beds.
[0033] It is possible to employ a cushion having a construction
other than that of an air bladder. (Although a bladder is
advantageous because when a jumper impacts the rebounding mat and
thereby presses down on one portion of a bladder, air is
transferred to and expands other portions of the bladder, where a
second jumper is more likely to land if there are two jumpers using
the trampoline.) For example, the cushion could be a
shock-absorbing spring system or resilient foam placed between beds
to help maintain the spacing between the beds during an impact and
to modify the shock-absorbing properties of the system.
[0034] One suitable spring system is show in FIG. 7. Each of
multiple spaced-apart springs comprises a piston 170 that extends
downwardly from a distribution plate 172 at an upper mat 173 and
through a retainer 174 and an opening in the lower mat 176. A coil
spring 178 below the lower mat elongates when sufficient force is
applied to the top of the upper mat to depress the piston.
[0035] A bladder with a sealable air intake valve is advantageous
because one can adjust the performance of the system by inflating
the bladder to a desired firmness.
[0036] One particular type of bladder would be not be tightly
sealed, but would have one-way (flapper) valves that would allow
air into the bladder, but would impede the escape of air. Such a
bladder, if connected to both upper and lower mats, would
self-inflate when the mats moved apart from each other. When a
jumper impacts the upper mat, the bladder would be firm and would
not let air escape or would let air escape only slowly so as to
provide a cushioning effect. The rate of air escape from the
bladder could be adjusted to tune the system. The characteristics
of the system could also be altered adjusting the rate of airflow
from between two spaced beds. For example, the porosity of mat
material can be selected to allow slow or rapid passage of air
thorough one or more mats as needed to achieve a particular result.
Or a material can be attached between the beds to slow the movement
of air between the upper and lower beds, increasing the cushioning
effect of the air and decreasing the system's responsiveness. Such
a material might be skirt that extends between upper and lower
rails to inhibit the exit of air from the region between two mats.
The skirt could be made of any material of a desired porosity, or
gaps could be provided between the skirt and the frame rails to
serve as air release ports.
[0037] A bottom-cushioned trampoline bed has several advantages
over the prior systems. If the bed "bottoms out" or hits the ground
during a rebound cycle the cushion will absorb the shock and
protect the jumper.
* * * * *