U.S. patent application number 11/450082 was filed with the patent office on 2007-03-01 for exercise apparatus.
Invention is credited to Michael Lin.
Application Number | 20070049467 11/450082 |
Document ID | / |
Family ID | 46325591 |
Filed Date | 2007-03-01 |
United States Patent
Application |
20070049467 |
Kind Code |
A1 |
Lin; Michael |
March 1, 2007 |
Exercise apparatus
Abstract
An exercise apparatus is provided. The exercise apparatus
includes a base disposed on a surface, a bicycle frame having a
first side and a second side and pivotally mounted on the base, a
first supporter disposed on the first side, and a simulating device
disposed on the bicycle frame to simulate a real bicycle riding.
While the bicycle frame is swinging to the first side, the first
supporter contacts the base to prevent the bicycle frame from
swinging beyond a specific extent.
Inventors: |
Lin; Michael; (Taipei,
TW) |
Correspondence
Address: |
Haverstock & Owens LLP
162 North Wolfe Road
Sunnyvale
CA
94086
US
|
Family ID: |
46325591 |
Appl. No.: |
11/450082 |
Filed: |
June 9, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
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11212054 |
Aug 24, 2005 |
|
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11450082 |
Jun 9, 2006 |
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Current U.S.
Class: |
482/57 |
Current CPC
Class: |
A63B 2022/0641 20130101;
A63B 26/003 20130101; A63B 21/225 20130101; A63B 21/015 20130101;
A63B 22/0605 20130101 |
Class at
Publication: |
482/057 |
International
Class: |
A63B 22/06 20060101
A63B022/06 |
Claims
1. An exercise apparatus, comprising: a base disposed on a ground;
a bicycle frame pivotally mounted on the base and having a swinging
axis; a controlling unit pivotally mounted on the bicycle frame and
mounting an adapting unit thereon, the adapting unit contacting and
movable on the ground; and a supporter disposed between the bicycle
frame and the base, wherein while the bicycle frame is swinging to
a first side, the supporter prevents the bicycle frame from
swinging beyond a specific extent.
2. The exercise apparatus as claimed in claim 1, further comprising
a gyro-wheel pivotally mounted on the bicycle frame.
3. The exercise apparatus as claimed in claim 2, wherein the
swinging axis is above a center of the gyro-wheel.
4. The exercise apparatus as claimed in claim 2, wherein the
swinging axis is under a center of the gyro-wheel.
5. The exercise apparatus as claimed in claim 1, wherein the
controlling unit has a rotating axis pointing to the ground.
6. The exercise apparatus as claimed in claim 1, wherein the
controlling unit further comprises a handle opposite to the
adapting unit for controlling therefor.
7. The exercise apparatus as claimed in claim 1, wherein the
controlling unit further comprises a rail movably running the
adapting unit thereon.
8. The exercise apparatus as claimed in claim 1, wherein the
adapting unit has only one roller that is linearly disposed with
the bicycle frame at an instance.
9. The exercise apparatus as claimed in claim 1, further comprising
a connecting unit pivotally connecting the base with the bicycle
frame.
10. The exercise apparatus as claimed in claim 9, wherein the
connecting unit further comprises: a connecting rod formed on the
bicycle frame; and a connecting seat formed on the base, wherein
the supporting rod and the supporting seat pivotally connect to
each other.
11. The exercise apparatus as claimed in claim 9, wherein the
connecting unit provides the swinging axis.
12. The exercise apparatus as claimed in claim 1, wherein the
supporter further comprises: a first supporting arm fixed to the
bicycle frame at the first side; and a second supporting arm fixed
to the bicycle frame at a second side opposite to the first side,
wherein while the bicycle frame swings to one of the first side and
the second side, a respective one of the first supporting arm and
the second arm touches the base to stop the bicycle frame from
swinging beyond the specific extent.
13. The exercise apparatus as claimed in claim 1, wherein the
supporter further comprises a first elastic unit connecting the
bicycle frame with the base at the first side, so that while the
bicycle frame swings to the first side, the first elastic unit
pushes the bicycle frame back to a desired position.
14. An exercise apparatus, comprising: a base; a bicycle frame
pivotally mounted on the base and forming a swinging axis; a first
zone and a second zone divided by the swing axis; a controlling
unit pivotally mounted on the bicycle frame and mounting an
adapting unit thereon; and a supporter disposed between the bicycle
frame and the base, wherein while the bicycle frame is swinging to
the first zone, the controlling unit moves the adapting unit toward
the first zone to create a reaction force pushing the bicycle frame
toward the second zone and the supporter stops the bicycle frame to
prevent the bicycle frame from swinging beyond a specific
extent.
15. The exercise apparatus as claimed in claim 14, wherein the
first zone begins from a right side of the bicycle frame and the
second zone begins from a left side of the bicycle frame.
16. The exercise apparatus as claimed in claim 14, wherein the
supporter further comprises: a first bar fixed on the right side of
the bicycle frame; a first limiter mounted on the base and below
the first bar; a second bar fixed on the right side of the bicycle
frame; and a second limiter mounted on the base and below the
second bar, wherein while the bicycle frame swings to one of the
first zone and the second zone, a respective one of the first bar
and the second bar is stopped by one of the first limiter and the
second limiter to prevent the bicycle frame from turnover.
17. An exercise apparatus, comprising: a base disposed on a
surface; a bicycle frame having a first side and a second side, and
pivotally mounted on the base; a first supporter disposed on the
first side; and a simulating device disposed on the bicycle frame
to simulate a real bicycle riding, wherein while the bicycle frame
is swinging to the first side, the first supporter contacts the
base to prevent the bicycle frame from swinging beyond a specific
extent.
18. The exercise apparatus as claimed in claim 17, wherein the
simulating device further comprises a gyro-wheel pivotally mounted
on the bicycle frame.
19. The exercise apparatus as claimed in claim 17, wherein the
simulating device comprises only one adapting unit that is linearly
disposed with the bicycle frame at an instance.
20. The exercise apparatus as claimed in claim 17, wherein the
simulating device further comprises: a linking rod pivotally
mounted on the bicycle frame; and an adapting unit fixed to the
linking rod and contacting the surface, wherein the adapting unit
is linearly disposed with the bicycle frame at an instance.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to an exercise apparatus, and
more particular to an exercise apparatus that virtually simulates a
real bicycle riding.
BACKGROUND OF THE INVENTION
[0002] The conventional exercise bicycles are generally operated by
pedaling a rotatable wheel with a variable and adjustable
resistance, so as to cause a corresponding amount of the energy
consumption for the exerciser. It is so drab for the exerciser to
do the body-building with such an exercise apparatus, and the
exerciser may hence lose his interests thereon and give it up.
However, conventional exercise bicycles only provide for an indoor
exercise. The exerciser just pedals mechanically without feeling
any road condition variation and acquiring any experience in
handling such road conditions, which may make the exerciser lose
his interests. In other words, exercising on a conventional
exercise bike decreases the desire of the exerciser, and thus
hinders the exerciser from developing his physical strength. In
addition, a device for exercising the limbs and torso of the
exerciser is disadvantageous in that the rotatable wheel thereof is
positioned below the seat, which makes the exerciser fail to keep
the balance while exercising.
[0003] For overcoming the mentioned disadvantage of the prior art,
a novel exercise apparatus is provided in the present invention.
The provided exercise apparatus is capable of providing the
exerciser with an improved balance while exercising the therewith,
so as to simulate a real bicycle riding and make the exerciser more
interested in exercising.
SUMMARY OF THE INVENTION
[0004] It is an aspect of the present invention to provide an
exercise apparatus with which the exerciser would keep his balance
while being on the bicycle frame thereof.
[0005] It is another aspect of the present invention to provide an
exercise apparatus which can prevent itself from swinging beyond a
specific extent.
[0006] For achieving the objects above, the present invention
provides an exercise apparatus, including a base disposed on a
ground, a bicycle frame pivotally mounted on the base and having a
swinging axis, a controlling unit pivotally mounted on the bicycle
frame and mounting an adapting unit thereon, the adapting unit
contacting and movable on the ground, and a supporter disposed
between the bicycle frame and the base. In which, while the bicycle
frame is swinging to a first side, the supporter prevents the
bicycle frame from swinging beyond a specific extent.
[0007] Preferably, the exercise apparatus further includes a
gyro-wheel pivotally mounted on the bicycle frame.
[0008] Preferably, the swinging axis is above a center of the
gyro-wheel.
[0009] Preferably, the swinging axis is under a center of the
gyro-wheel.
[0010] Preferably, the the controlling unit has a rotating axis
pointing to the ground.
[0011] Preferably, the controlling unit further includes a handle
opposite to the adapting unit for controlling therefor.
[0012] Preferably, the controlling unit further includes a rail
movably running the adapting unit thereon.
[0013] Preferably, the adapting unit has only one roller that is
linearly disposed with the bicycle frame at an instance.
[0014] Preferably, the exercise apparatus further has a connecting
unit pivotally connecting the base with the bicycle frame.
[0015] Preferably, the connecting unit further includes a
connecting rod formed on the bicycle frame and a connecting seat
formed on the base, wherein the supporting rod and the supporting
seat pivotally connect to each other.
[0016] Preferably, the connecting unit provides the swinging
axis.
[0017] Preferably, the supporter further includes a first
supporting arm fixed to the bicycle frame at the first side and a
second supporting arm fixed to the bicycle frame at a second side
opposite to the first side, wherein while the bicycle frame swings
to one of the first side and the second side, a respective one of
the first supporting arm and the second arm touches the base to
stop the bicycle frame from swinging beyond the specific
extent.
[0018] Preferably, the supporter further includes a first elastic
unit connecting the bicycle frame with the frame at the first side,
so that while the bicycle frame swings to the first side, the first
elastic unit pushes the bicycle frame back to a desired
position.
[0019] According to above aspects, the present invention provides
another exercise apparatus. The exercise apparatus includes a base,
a bicycle frame pivotally mounted on the base and forming a
swinging axis, a first zone and a second zone divided by the swing
axis, a controlling unit pivotally mounted on the bicycle frame and
mounting an adapting unit thereon, and a supporter disposed between
the bicycle frame and the base, wherein while the bicycle frame is
swinging to the first zone, the controlling unit moves the adapting
unit toward the first zone to create a reaction force pushing the
bicycle frame toward the second zone and the supporter stops the
bicycle frame to prevent the bicycle frame from swinging beyond a
specific extent.
[0020] The exercise apparatus as set forth above, wherein the first
zone begins from a right side of the bicycle frame and the second
zone begins from a left side of the bicycle frame.
[0021] The exercise apparatus as set forth above, wherein the
supporter further includes a first bar fixed on the right side of
the bicycle frame, a first limiter mounted on the base and below
the first bar, a second bar fixed on the right side of the bicycle
frame, and a second limiter mounted on the base and below the
second bar, wherein while the bicycle frame swings to one of the
first zone and the second zone, a respective one of the first bar
and the second bar is stopped by one of the first limiter and the
second limiter to prevent the bicycle frame from turnover.
[0022] According to above aspects, the present invention further
provides yet another exercise apparatus, including a base disposed
on a surface, a bicycle frame having a first side and a second
side, and pivotally mounted on the base, a first supporter disposed
on the first side, and a simulating device disposed on the bicycle
frame to simulate a real bicycle riding, wherein while the bicycle
frame is swinging to the first side, the first supporter contacts
the base to prevent the bicycle frame from swinging beyond a
specific extent.
[0023] In accordance with the present invention, the simulating
device further includes a gyro-wheel pivotally mounted on the
bicycle frame.
[0024] In accordance with the present invention, the simulating
device includes only one adapting unit that is linearly disposed
with the bicycle frame at an instance.
[0025] In accordance with the present invention, the simulating
device further includes a linking rod pivotally mounted on the
bicycle frame, and an adapting unit fixed to the linking rod and
contacting the surface, wherein the adapting unit is linearly
disposed with the bicycle frame at an instance.
[0026] The above contents and advantages of the present invention
will become more readily apparent to those ordinarily skilled in
the art after reviewing the following detailed descriptions and
accompanying drawings, in which:
BRIEF DESCRIPTION OF THE DRAWINGS
[0027] FIG. 1 is a perspective view of an exercise apparatus
according to a first preferred embodiment of the present
invention;
[0028] FIG. 2 is an exploded view of a connecting unit of the
exercise apparatus according to the first preferred embodiment of
the present invention;
[0029] FIGS. 3(a) and 3(b) are front views schematically showing
the operation of the connecting unit shown in FIG. 2;
[0030] FIG. 4 is a front view of a resistance generator arranged on
a gyro-wheel of the exercise apparatus according to the first
preferred embodiment of the present invention;
[0031] FIG. 5 is an exploded view of an adapting device of a
controlling unit of the exercise apparatus according to the first
preferred embodiment of the present invention;
[0032] FIGS. 6(a) and 6(b) are cross-sectional views schematically
showing the operation of the adapting device shown in FIG. 5;
[0033] FIG. 7 is a top view showing the operation of a handle with
the adapting device according to the preferred embodiment of the
present invention;
[0034] FIG. 8 is a side view of an exercise apparatus according to
a second preferred embodiment of the present invention;
[0035] FIG. 9 is a side view of an exercise apparatus according to
a third preferred embodiment of the present invention;
[0036] FIG. 10 is a front view of the exercise apparatus according
to the embodiment of FIG. 1;
[0037] FIG. 11 is a front view schematically showing the bicycle
frame swinging to the first zone;
[0038] FIG. 12 is a front view schematically showing the bicycle
frame swinging to the second zone;
[0039] FIG. 13 is a local view schematically showing the structure
around the connecting unit and adapting unit;
[0040] FIGS. 14-16 are local front views schematically showing
different embodiments of the supporter of the present invention;
and
[0041] FIG. 17 is a side view of the exercise apparatus according
to a forth preferred embodiment of the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0042] The present invention will now be described more
specifically with reference to the following embodiments. It is to
be noted that the following descriptions of preferred embodiments
of this invention are presented herein for purposes of illustration
and description only; it is not intended to be exhaustive or to be
limited to the precise form disclosed.
[0043] Please refer to FIG. 1, which shows a perspective view of an
exercise apparatus according to a first preferred embodiment of the
present invention. The exercise apparatus includes a bicycle frame
10 whose shape is not limited to the disclosed one. The bicycle
frame 10 includes a supporting member 11 mounted on a base 13 that
is placed on a base surface G. Generally speaking, the surface G is
a ground or a floor. On the bicycle frame 10, a seat 15 is mounted
thereon for seating an exerciser, and a controlling unit 30 is
pivotally mounted on a first terminal of the bicycle frame 10, so
that the exerciser can balance himself therethrough. Furthermore,
because the bicycle frame 10 and the base 13 are pivotally mounted
to each other, the present invention naturally has a swinging axis
SA formed and passing through the respective positions of the
pivotal-mounting of the bicycle frame 10 and the base 13.
Therefore, in the embodiment of FIG. 1, the swinging axis SA passes
through the connecting unit 50, which pivotally connects the
bicycle frame 10 with the base 13.
[0044] Furthermore, in FIG. 1, the controlling unit 30 is pivotally
mounted on the bicycle frame 10 through a neck 12 thereof. The
controlling unit 30 includes a linking rod 31 extended from one end
of the neck 12 and a handle 20 extended from the other end thereof.
The linking rod 31 further has a adapting unit 301 at a end thereof
away from the neck 12. And the adapting unit 301 further has a
roller 35 contacting the surface G. Hence, the user can control the
position of the adapting unit 30 respecting the surface G through
turning the handle 20. Because of the pivotal-mounting between the
controlling unit 30 and the neck 12 of the bicycle frame 10, the
controlling unit 30 forms a rotating axis RA pointing to the
surface G. While the bicycle frame 10 swings to a certain direction
thereof, the user operates the controlling unit 30 to move the
adapting unit 301 to the certain direction. Therefore, the adapting
unit 30 passes the reaction receiving from the surface G to push
the bicycle frame 10 back. Thus, it is very clear that by using the
controlling unit 30, the present invention can easily simulate a
real bicycle riding feeling for the user.
[0045] Please refer to FIG. 1, the bicycle frame 10 also pivotally
mounts a gyro-wheel 43 driven by a driving unit 40 thereon.
Depending on the physics theory, when the gyro-wheel 43 is
rotating, it creates inertia which can resist interference from
outside and maintains the posture of the bicycle frame 10.
[0046] The driving unit 40 includes a driving wheel 41 connecting
to a driven wheel 42 by a transmittal 44. The driven wheel 42 is
fixed on the gyro-wheel 43, and thus the gyro-wheel 43 is rotated
synchronously with the driven wheel 42. A pair of pedals 45 are
connected to the driving wheel 41. In this embodiment, the driving
wheel 41 and the driven wheel 42 would be one of a gear and a
pulley. The transmittal 44 would be one of a chain and a belt,
depending on the driving wheel 41 and the driven wheel 42.
[0047] The weight of the gyro-wheel 43 also affects its inertia, so
the larger the weight is, the larger the inertia will be.
Therefore, the exercise apparatus of the present invention may
include more than one gyratory wheel 43 and the respective
diameters and weights thereof are different. The user can exchange
the gyro-wheel 43 with a proper weight according actual needs.
Besides, a retainer 60 is provided on the supporting member 11 for
holding the linking rod 31, so as to prevent the linking rod 31
from bouncing up and down while swinging.
[0048] The supporting member 11 and the base 13 are connected to
each other through a connecting unit 50, which is described in
detail with reference to FIG. 2. Please refer to FIG. 2, which
shows an exploded view of a connecting unit 50 of the exercise
apparatus according to the first preferred embodiment of the
present invention. The connecting unit 50 includes a connecting rod
51 and a set of connecting seats 52. The connecting rod 51 has a
positioning hole 511 therethrough. One end of the connecting rod 51
is connected to the supporting member 11, and the other end thereof
is inserted between the seats 52 fixed on the base 13 and is
pivotally fixed therebetween through a pivot S, so that the
connecting rod 51 is capable of swinging about the pivot S. A first
pivotal hole 512 is disposed on the connecting rod 51 and a second
pivotal hole 523 is disposed on the seats 52, and thus the pivot S
penetrates both of the first and second pivotal holes and the
bicycle frame 10 (shown in FIG. 1) can swing according to the pivot
S. Moreover, there are a central hole 521 and plural holes 522
arranged at each side of the central hole 521 on the pair of the
seats 52.
[0049] Please refer to FIGS. 3(a) and 3(b), which are front views
schematically showing the operation of the connecting unit shown in
FIG. 2. As shown in FIG. 3(a), if two stop levers 54 are
respectively inserted into the holes 522a which are configured
adjacent to the central hole 521, the connecting rod 51 is able to
be adjusted to a position vertical to the base surface G and fixed
at this position by inserting a positioning member 53 through the
positioning hole 511 and the central holes 521.
[0050] As shown in FIG. 3(b), while the two stop levers 54 are
respectively inserted into the holes 522b on the pivotal seats 52,
the swing of the connecting rod 51 is thus limited. In other words,
the connecting rod 51 would only swing in the range defined by the
two stop levers 54 respectively inserted in the holes 522b.
Therefore, the connecting unit 50 functions as a swinging angle
controlling element and adjusts the swinging angle of the bicycle
frame 10 as desired. It is worthy to note that the number of the
connecting unit 50 is variable, which depends on an actual design
therefor.
[0051] Through the connecting unit 50, it is easy to adjust the
bicycle frame 10 to fix at a position which is vertical to the base
surface G, and alternatively, to swing within a limited angle.
Besides, one should notice that the connecting unit 50 shown in
FIGS. 2, 3(a) and 3(b) is only illustrated for the preferred
embodiments of the present invention. The connecting unit 50 may
also include a connecting rod 51 and a connecting seat 52, wherein
the connecting rod 51 is able to be pivoted to the pivotal seat 52
with other components.
[0052] Please refer to FIG. 4, which shows a front view of a
resistance generator arranged on a gyro-wheel of the exercise
apparatus according to the first preferred embodiment of the
present invention. The resistance generator 80 is arranged on the
gyro-wheel 43 so as to supply different resistance for riding. For
example, the resistance is generated by the resistance generator 80
which is screwed to prop up a friction member 81. While the
resistance generator 80 is screwed toward the friction member 81,
the gyro-wheel 43 is pressed thereby, so that the resistance is
increased.
[0053] Please refer to FIG. 5, which shows an exploded view of an
adapting device of a controlling unit of the exercise apparatus
according to the first preferred embodiment of the present
invention. The adapting device 301 has a first big mounting bracket
32 and a pair of opposite elongated holes 33. A second big mounting
bracket 34 is inserted into the first big mounting bracket 32 and a
roller 35 is disposed therein. A positioning member 36 is inserted
into the pair of opposite elongated holes 33 of the first big
mounting bracket 32, and thus the second big mounting bracket 34
and the roller 35 are assembled together. An elastic member 37 is
disposed between the first big mounting bracket 32 and the second
big mounting bracket 34 so as to absorb the vibration while the
exercise apparatus is operated.
[0054] In this embodiment, the roller 35 is a rotatable member
which contacts the base surface G, and the contact point thereof
with respect to the base surface G is regarded as a contacting
point. Therefore, the reaction from the surface G affects the
roller 35 first, and is then transmitted through the first and
second brackets 32 and 34. At last, the reaction is transmitted to
the linking rod 31 to support the bicycle frame (shown in FIG. 1).
In other embodiments, however, the base surface G further includes
the ground or other surfaces.
[0055] Please refer to FIGS. 6(a) and 6(b), which are
cross-sectional views schematically showing the operation of the
adapting device shown in FIG. 5. If the base surface G is uneven,
the elastic member 37 would absorb the vibration resulting from the
roller 35 which moves up and down in response to the unevenness of
the base surface G, so as to provide the controlling unit 30 with a
stable condition for controlling as shown in FIG. 6(b).
[0056] Please refer to FIG. 7, which is a top view showing the
operation of a controlling unit with the adapting device according
to the preferred embodiment of the present invention. The bicycle
frame 10 is to be fixed at a position which is vertical to the base
surface G. The exercise apparatus would generate an inertia while
the exerciser pedaling the pedals 45. In order to keep the bicycle
frame 10 at a balance, the exerciser could hold the handle 20 to
make the controlling unit 30 turn left and right, so that the
adapting device 301 would correspondly swing on the base surface G.
In FIG. 7, the exercise apparatus has a swinging axis SA dividing
the exercise apparatus into a first zone Z01 and a second zone Z02.
When the bicycle frame 10 swings to the first zone Z01 in a first
direction D01, the user turns the handle 20 toward the first zone
Z01 to prevent the bicycle frame 10 from turnover just like an
ordinary bicycle user does. Hence, when the handle 20 is turned
toward the first zone Z01, the adapting unit 301 is moved to the
first position P01 in the first zone Z01. And then the surface G
produces a reaction to sustain the adapting unit 301 and further
sustain the bicycle frame 10 to avoid turnover. In the same reason,
when the bicycle frame 10 swings to the second zone Z02 in a second
direction D02, the user turns the handle 20 toward the second zone
Z02 to prevent the bicycle frame 10 from turnover just like an
ordinary bicycle user does. Thus, when the handle 20 is turned
toward the second zone Z02, the adapting unit 301 is moved to the
second position P02 in the second zone Z02. And then the surface G
produces a reaction to sustain the adapting unit 301 and further
sustain the bicycle frame 10 to avoid turnover. Of course, the
reaction from the surface G can push the bicycle frame 10 back to
the middle through the adapting unit 301, linking rod 31 and the
controlling unit 30 (shown in FIG. 1).
[0057] Please refer to FIG. 7. Furthermore, while the adapting unit
301 locates just in the middle between the first zone Z01 and the
second zone Z02, the bicycle frame 10 is possible to swing to each
zone, just like an ordinary bicycle. However, by using the exercise
apparatus of the present invention, the user can simulate the real
bicycle riding feeling without the need of expansive area as an
ordinary bicycle rider. Through the present invention, the user
uses only a limited space for disposition and can exercise with
simulating bicycle riding.
[0058] Please refer to FIG. 8, which shows a side view of an
exercise apparatus according to a second preferred embodiment of
the present invention. The controlling unit 30 includes a straight
frame 38 whose first end is connected to the handle 20, and the
second end thereof is folded into an arcuate rod 39 which is
further connected to one end of the extending rod 31' with a joint
313. The arcuate rod 39 and the extending rod 31' respectively have
a locking protrusion 391 and 311, and an elastic member 37A is held
therebetween. When the controlling unit 30 is swung, the angle
between the arcuate rod 39 and the cross rod 31 is adjusted by the
joint 313 in response to the absorbing of the elastic member 37A.
The roller 35 is pivotally disposed in the first big mounting
bracket 32 at the other end of the cross rod 31. It is worthy to
note that the positioning member 36 is inserted into the holes 33
(shown in FIG. 5) on each side of the first big mounting bracket
32. The elastic member 37A is used to make the roller 35 flexibly
move above the base surface G and assure the roller 35 always
contacting the surface G by the pushing from the elastic member
37A.
[0059] While the bicycle frame 10 swings, the swinging unit 30
would swing left and right and the roller 35 contacting the base
surface G is moved corresponding, so as to supply a supporting
force for the bicycle frame 10. However, the swinging of the
bicycle frame 10 would be slightly affected by an uneven base
surface G or an excessive slant of the bicycle frame 10 which leads
to an adverse manner, and therefore, one inventive design in this
embodiment exists in that the controlling unit 30 is provided with
the elastic member 37A. As a result, the controlling unit 30 is
capable of providing a supporting effect for balancing and
stabilizing the bicycle frame 10 as well as the exerciser.
[0060] Please refer to FIG. 9, which shows a side view of an
exercise apparatus according to a third preferred embodiment of the
present invention. In this embodiment, the controlling unit 30
includes a first portion 30a rotating therethrough and a second
portion 30b kept in front of the gyro-wheel 43. Combining the
absorbing effect of the elastic element 37A and the firmer
controlling unit 30, it should be much easier to balanceably keep
the bicycle frame 10 on the base surface G by using the handle
20.
[0061] As the above-mentioned, the weight of the gyratory wheel
would result in an inertia when the driving unit is rotated and the
controlling unit is suitably rotated/turned, so as to dynamically
balance the bicycle frame and provide the exerciser with a balance
when the exerciser is exercising with the exercise apparatus.
Furthermore, the provided exercise apparatus also makes the
exercise simulation more real and interesting. The bicycle frame
swings left and right in a predetermined range whose swinging angle
is easily adjustable and thus the riding and the quality of riding
simulation are well improved. In addition, the connecting unit and
the bicycle frame are able to be adjusted to stand vertically or
swing laterally, and thus the swinging angle of the bicycle frame
is easily controlled by the exerciser as needed.
[0062] Please refer to FIG. 10, which is a front view of the
exercise apparatus according to the embodiment of FIG. 1. FIG. 10
shows that the bicycle frame 10 is disposed on the surface G which
can be a ground or a floor in a room. The bicycle frame 10 has a
right side RS and a left side LS, and thus the first zone Z01
begins from the right side to the surface G and the second zone Z02
begins from the left side LS to the surface G. When the bicycle
frame 10 keeps in balance, the bicycle frame 10 stays in the middle
position and swings to neither the first zone Z01 nor the second
zone Z02. Furthermore, the exercise apparatus has a rail 14
disposed between the surface G and the roller 35, and contacted by
both of them. The rail 14 provides the roller 35 a smooth rolling
surface to avoid any unevenness influencing the rotation of the
roller 35. Because the bicycle frame 10 stays in balance, it is
unnecessary for the user to turn the controlling unit 30 to keep
the exercise apparatus in balance. Therefore, the handle 20 points
forward to make the adapting unit 301 located just right in front
of the connecting unit 50 and linearly disposed with the swinging
axis SA of the bicycle frame 10 at this instance (shown in FIG. 7).
The portions behind the neck 12 and the controlling unit 30 in FIG.
10 are shown in dotted lines.
[0063] Please refer to FIG. 11. FIG. 11 is a front view
schematically showing the bicycle frame swinging to the first zone.
Although the gyro-wheel 43 can keep balance in theory, the bicycle
frame 10 is still affected by external forces. Therefore, for
example, when the bicycle frame 10 swings to the first zone Z01,
the user can turn the handle 20 to the right side RS so as to move
the adapting unit 301 to the first zone Z01 through the linking rod
31, and the roller 35 is moved to the first zone Z01 accordingly.
Because of the swinging of the bicycle frame 10, a weight is added
to the rail 14 by the roller 35. Accordingly, the rail 14 produces
a reacting force (reaction) RF to the roller 35 for sustaining. The
reacting force RF is further transmitted to the controlling unit 30
through the linking rod 31, and then arrives the neck 12 of the
bicycle frame 10. Thus, it is clear that the reacting force RF
holds the bicycle frame 10 to prevent it from swinging continuously
and provides an ordinary bicycle riding feeling to the user of the
exercise apparatus.
[0064] Please refer to FIG. 12. FIG. 12 is a front view
schematically showing the bicycle frame swinging to the second
zone. Although the gyro-wheel 43 can keep balance in theory, the
bicycle frame 10 is still affected by external forces. Therefore,
for example, when the bicycle frame 10 swings to the second zone
Z02, the user can turn the handle 20 to the left side LS so as to
move the adapting unit 301 to the second zone Z02 through the
linking rod 31, and the roller 35 is moved to the second zone Z02
accordingly. Because of the swinging of the bicycle frame 10, a
weight is added to the rail 14 by the roller 35. Hence, the rail 14
produces a reacting force (reaction) RF to the roller 35 for
sustaining. The reacting force RF is further transmitted to the
controlling unit 30 through the linking rod 31, and then arrives
the neck 12 of the bicycle frame 10. Thus, it is clear that the
reacting force RF holds the bicycle frame 10 to prevent it from
swinging continuously and provides an ordinary bicycle riding
feeling to the user of the exercise apparatus.
[0065] In both of FIGS. 11 and 12, no matter the bicycle frame
swings to either the first zone Z01 or the second zone Z02, the
elastic member 37 (shown in FIGS. 5, 6(a) and 6 (b)) is compressed
because the straight-line distance between the neck 12 and the
roller 35 is shortened. Accordingly, the elastic element 37 has a
potential energy to restore an original length coaxially with the
swinging axis SA (shown in FIG. 7). Therefore, the elastic element
37 pushes the first big mounting bracket 32 and thus the
controlling unit 30 through the linking rod 31. And then the neck
12 is pushed by the controlling unit 30, thereby making the bicycle
frame 10 back to the middle position as shown in FIG. 10.
Therefore, according to the above descriptions, the controlling
unit 30 not only prevents the bicycle frame 10 from swinging
continuously, but also retrieves it to the middle position as shown
in FIG. 10. Hence, through the present invention, the user feels
just like riding an ordinary bicycle.
[0066] Please refer to FIG. 13. FIG. 13 is a local view
schematically showing the structure around the connecting unit and
adapting unit. For stopping the bicycle frame 10 from swinging
beyond a specific extent, a supporter 61 is disposed between the
bicycle frame 10 and the base 13. Furthermore, the supporter 61 has
a first bar 62'a fixed to the bicycle frame 10 at the first side
thereof. While the bicycle frame 10 swings to the first side, the
first bar 62'a touches the base 13 to stop the bicycle frame 10
from swinging beyond the specific extent. Furthermore, just under
the bar 62'a, a first pad 64' is disposed on the base 13 for
absorbing the shock resulting from the bar 62'a. The bicycle frame
10 is still pivotally mounted to the base 13 through the connecting
unit 50, and the gyro-wheel 43 is rotatably mounted on the bicycle
frame 10 and driven by the transmittal 44. The controlling unit 30
includes a linking rod 31 having an adapting unit 301 at the end
thereof. In addition, a rail 14 is disposed on the base 13, and a
roller 35 is placed on the rail 14 for smoothly rolling
thereon.
[0067] Please refer to FIGS. 14, 15 and 16. FIGS. 14-16 are local
front views schematically showing different embodiments of the
supporter of the present invention. In FIG. 14, the connecting unit
50 has a connecting rod 51 extended from the bicycle frame 10 and a
connecting seat 52 formed on the base 13. A pivot S connects the
connecting rod 51 with the connecting seat 52, thereby creating a
swinging axis SA (shown in FIG. 7). Furthermore, a first supporting
arm 61a and a second supporting arm 62a are respectively fixed at
the right side RS and the left side LS of the bicycle frame 10.
Therefore, when the bicycle frame 10 swings to either the right
side RS or the left side LS, the first supporting arm 61a or the
second supporting arm 62a will touch the base 13 to stop the
bicycle frame 10 from swinging beyond the specific extent.
Therefore, the distance between the arms (61a, 62a) and the base 13
decides the swinging angle of the bicycle frame 10. Thus, for a
better operation, each of the first supporting arm 61a and the
second supporting arm 62a is equipped with an adjuster 60 having a
pad 64 and a screw 63, where the pad 64 is movable up and down by
the rotation of the screw 63. When the pad 64 is moved up, the gap
between it and the base 13 gets larger, so the bicycle frame 10
(shown in FIGS. 1, 10 and 11) is able to swing at a bigger angle.
On the contrary, when the pad 64 is moved down, the gap between it
and the base 13 gets smaller, so the bicycle frame 10 (shown in
FIGS. 1, 10 and 11) is able to swing at a smaller angle.
Furthermore, while both of the pads 64 contact the base 13, the
bicycle frame 10 (shown in FIGS. 1, 10 and 11) is unable to swing.
Besides, for a better shock-absorbing effect, the pads 64 are made
of an elastic material or a spring.
[0068] In FIG. 15, the connecting unit 50 has a connecting rod 51
extended from the bicycle frame 10 and a connecting seat 52 formed
on the base 13. A pivot S connects the connecting rod 51 with the
connecting seat 52, thereby creating a swinging axis SA (shown in
FIG. 7). Furthermore, a first supporter 61' is disposed at the
right side RS of the connecting rod 51, and a second supporter 62'
is disposed at the left side LF thereof. The first supporter 61'
further includes a first bar 61'a fixed on the right side RS of the
bicycle frame 10 and a first limiter 61'b mounted on the base 13
and below the first bar 61'a. The second supporter 62' further
includes a second bar 62'a fixed on the left side LS of the bicycle
frame 10 and a second limiter 62'b mounted on the base 13 and below
the second bar 62'a. While the bicycle frame 10 swings to either
the right side RS or the left side LS, a respective one of the
first bar 61'a and the second bar 62'a is stopped by one of the
first limiter 61'b and the second limiter 62'b to prevent the
bicycle frame 10 from turnover. Each of the first and second
limiters 61'b and 62'b has a pad 64 which is disposed on a screw 63
mounted on the base 13. The pad 64 is movable up and down by the
rotation of the screw 63. When the pad 64 is moved up, the gap
between it and the base 13 becomes smaller, so the bicycle frame 10
(shown in FIGS. 1, 10 and 11) is able to swing at a smaller angle.
On the contrary, when the pad 64 is moved down, the gap between it
and the base 13 becomes larger, so the bicycle frame 10 (shown in
FIGS. 1, 10 and 11) is able to swing at a larger angle.
Furthermore, while both of the pads 64 contact the base 13, the
bicycle frame 10 (shown in FIGS. 1, 10 and 11) is unable to swing.
Moreover, for a better shock-absorbing effect, the pads 64 are made
of an elastic material or a spring.
[0069] Please refer to FIG. 16. As shown in FIG. 16, a first
elastic unit 65a connects the bicycle frame 10 with the base 13 at
the right side RS, so that while the bicycle frame 10 swings to the
right side RS, the first elastic unit 65a pushes the bicycle frame
10 back to a desired position which is normally the middle position
as shown in FIG. 10. Furthermore, a second elastic unit 65b
connects the bicycle frame 10 with the base 13 at the left side LS,
so that while the bicycle frame 10 swings to the left side LS, the
second elastic unit 65b pushes the bicycle frame 10 back to a
desired position which is normally the middle position as shown in
FIG. 10. Therefore, when the bicycle frame 10 swings to one side,
one of the elastic units 65a and 65b pushes it back and the other
thereof pulls it back. Through the first and second elastic units
65a and 65b), the bicycle frame 10 is prevented from swinging
beyond a specific extent.
[0070] Please refer to FIG. 17, which is a side view of the
exercise apparatus according to a forth preferred embodiment of the
present invention. As shown in FIG. 17, a driven wheel 41 is
pivotally mounted on the bicycle frame 10 and a pedal 45 is fixed
to the driven wheel 41. A gyro-wheel 43 is pivotally mounted on the
bicycle frame 10 and driven by the driven wheel 41 through the
transmittal 44. A controlling unit 30 is pivotally jointed on the
bicycle frame 10 through a neck 12 thereof. The controlling unit 30
forms a rotating axis RA pointing to the surface G and has a
linking rod 31 on which a roller 35 is mounted. A handle 20 is
further fixed on the controlling unit 30 opposite to the roller 35
thereof. Hence, the user is able to rotate the handle 20 to move
the roller 35 in curve above the surface G. A rail 14 is disposed
between the roller 35 and the surface G for providing a smooth
rotation for the roller 35 thereon. The bicycle frame 10 is
pivotally mounted on the base 13 through a stand 16. The stand 16
forms a second swinging axis SA' above the shaft 43' of the
gyro-wheel 43. In comparison, the swinging axis SA of FIG. 1 is
below the gyro-wheel 43. Although the swinging axis SA of FIG. 1 is
near the surface G and provides a swinging feeling like an ordinary
bicycle, the swinging axis SA for the exerciser is a little bit
unstable. But in FIG. 17, the stand 16 raises the swinging axis to
the second swinging axis SA'. The bicycle frame 10 is more stable
compared to that in FIG. 1, because the mass center integrates the
bicycle frame 10 with the gyro-wheel 43, and the user is closer to
the second swinging axis SA'. Besides, a seat 15 is fixed on the
bicycle frame 10 for the exerciser to sit thereon and pedal the
pedal 45.
[0071] In conclusion, through either of the embodiments described
above, the user feels just like riding an ordinary bicycle.
Especially, the controlling unit of the present invention provides
a balance controlling feeling which is almost the same as an
ordinary bicycle. Therefore, the present invention provides an
improved exercise apparatus, making the user feel like riding a
real bicycle in a limited space. Furthermore, the supporters of the
present invention prevent the bicycle frame from swinging beyond a
specific extent, and the rail of the present invention provides a
smooth rotation for the roller moved thereon.
[0072] While the invention has been described in terms of what is
presently considered to be the most practical and preferred
embodiments, it is to be understood that the invention needs not be
limited to the disclosed embodiments. On the contrary, it is
intended to cover various modifications and similar arrangements
included within the spirit and scope of the appended claims which
are to be accorded with the broadest interpretation so as to
encompass all such modifications and similar structures.
* * * * *