ELLIPTICAL MOTION EXERCISER
An exercise apparatus includes a frame, a crank with left and right crank arms rotatably coupled to the frame and left and right exercise assemblies. Each of the exercise assemblies includes a pedal link, a foot pedal coupled to a rearward portion of the pedal link, a rocker link having a lower portion pivotally coupled to the forward end of the pedal link and an upper portion pivotally coupled to the frame, and a driver link having a forward portion pivotally coupled to a respective crank arm and a rearward portion pivotally coupled to the pedal link. A flexible connecting member is coupled to the pedal links or the driver links and to a pivoting assembly mounted on the frame. The left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and reciprocate upwardly and downwardly in coordination with rotation of the pivoting assembly.
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The present invention relates generally to the field of exercise equipment and, more specifically, to embodiments of an elliptical motion exerciser.
BACKGROUNDElliptical exercisers have been marketed since the 1990s. Although a variety of such devices have been introduced, they all share many common characteristics. An elliptical exerciser is a stationary exercise machine used to simulate stair climbing, skiing, walking or running without causing excessive pressure to the joints, hence decreasing the risk of impact injuries. It offers a non-impact, weight-bearing cardiovascular workout that can vary from light to high intensity based on the speed of the exercise and the resistance preference set by the user.
SUMMARY OF THE INVENTIONThe present invention provides an improved apparatus for cardiovascular exercise. Pedals for supporting the user are suspended from the frame of the apparatus. A flywheel and crank arms provide a striding motion with a fixed, dependant horizontal motion range. This striding motion may also be adjustable by having variable adjustments for the length of the cranks. A flexible link connecting the pedals provides variable, dependant vertical motion range controlled and defined by the user or by resistance. The user can do a vertical stepping motion, a back and forth ski motion, or variable elliptical motions by simply changing the user's stride. The pedals follow the user's foot motion. By adjusting certain components, the linkage encourages several types of elliptical motions and an inclined arc motion. As the user strides horizontally, the flywheel and crank arms control the range of the horizontal motion, but vertical motion is controlled by the force of the user within a limited range. This provides a better cardiovascular workout than just following a fixed path because the user has to control the motion and can vary the motion to exercise different muscles or exercise the same muscles differently.
In one embodiment, an exercise apparatus in accordance with the invention comprising a frame, a crank rotatably coupled to the frame, the crank having left and right crank arms, and left and right exercise assemblies. Each of the exercise assemblies comprises a pedal link having forward and rearward portions, a foot pedal coupled to the rearward portion of the pedal link, a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame, and a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link. The apparatus further comprises at least one flexible connecting member coupled to the left and right pedal links and a pivoting assembly mounted on the frame receiving said at least one flexible connecting member. The left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and the left and right foot pedals reciprocate upwardly and downwardly in coordination with rotation of the pivoting assembly.
In another embodiment, an exercise apparatus in accordance with the invention comprises a frame, a crank rotatably coupled to the frame, the crank having left and right crank arms, and left and right exercise assemblies. Each exercise assembly comprises a pedal link having forward and rearward portions, a foot pedal coupled to the rearward portion of the pedal link, a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame, and a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link. The apparatus further comprises at least one flexible connecting member coupled to the left and right driver links and a pivoting assembly mounted on the frame receiving said at least one flexible connecting member. The left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and the left and right foot pedals reciprocate upwardly and downwardly in coordination with rotation of the pivoting assembly.
In the following description, for purposes of explanation and not limitation, specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known methods and devices are omitted so as to not obscure the description of the present invention with unnecessary detail.
A first embodiment of the present invention will be generally described with reference to
Flexible members 26L, 26R are connected to the rear of pedal Links 16L, 16R, respectively. The flexible members are guided over pulleys 28L, 28R and pass through hollow frame members 30L, 30R. The flexible members exit the forward ends of the hollow frame members and pass around pulleys 32L, 32R. Flexible members 26L, 26R are attached to pivoting assembly 52, which will be more fully explained below.
Exercise arms 36L, 36R are attached to respective rocker links 17L, 17R to provide optional upper body exercise while using apparatus 10. A fixed handgrip 38 is provided if the user of the apparatus wishes to exercise only the lower body. Handgrip 38 and, optionally, forearm rests (not shown) help the user to work the glutes and hamstrings when pushing back on the pedals. Panel 40 is placed in a position to be easily viewed by the user of the apparatus and may be made adjustable in height to give the user an unobstructed view forward for watching TV or enjoying the surroundings. Controls and displays for operation of the apparatus are mounted on panel 40. A support for reading material may be attached to frame 12 in the vicinity of panel 40 and may be made foldable for storage when not in use.
Referring now to
As mentioned above, carriage 34 is mounted on rails 50L, 50R and is movable thereon toward and away from axis 54. Pivoting assembly 52 includes a mechanism, such as a screw and follower, so that the position of carriage 34 may be controlled by the user of the apparatus.
In order to exercise on apparatus 10, the user stands on pedals 14L, 14R and grasps either arms 36L, 36R or handle bar 38. As the user exerts forward and/or backward pressure on the pedals, the movement of the pedals is coordinated by rotation of crank arms 22L, 22R, which results in a natural striding motion. Adjustable mechanical or electromechanical resistance may be provided to impose a braking effect on the rotation of flywheel 24 to increase the exercise workout.
The user can exercise with just a simple forward and backward striding motion or can add a vertical component to the motion by pushing downwardly on the pedals. Adding such a vertical component of motion results in the pedals moving in an elliptical path. Vertical motion of the pedals is coordinated by flexible members 26L, 26R and the pivotal motion of pivoting assembly 52. Downward force applied by the foot of the user is transmitted through the corresponding flexible member and is applied to carriage 34. This results in a torque about axis 54 that is linearly related to the distance between carriage 34 and axis 54. This torque results in rotational displacement of the pivoting assembly, which lifts the opposite pedal. Displacement of the pivoting assembly is opposed by compression of elastomeric spring 58L or 58R. As the user releases downward force on the pedal, the compressed elastomeric spring urges the pivoting assembly toward a centered position and the flexible member returns the pedal to its neutral vertical position.
If the carriage 34 is moved closer to axis 54, the torque applied to the pivoting assembly 52 about axis 54 is reduced for any given force applied to the carriage by one of the flexible members. However, the opposing torque resulting from compression of the elastomeric spring remains constant. This results in a reduced rotational displacement of the pivoting assembly and, therefore, a reduced displacement of the pedal. As the carriage is moved closer to axis 54, the torque applied to the pivoting assembly is reduced. If the carriage is positioned so that the ends of the flexible members align with axis 54, the torque is reduced to zero, thereby resulting in no pivotal displacement of the pivoting assembly and no vertical displacement of the pedals. This effect on the path of motion of the pedals is illustrated in
An alternative arrangement of the pivoting assembly using coil extension springs in lieu of elastomeric springs is illustrated in
In an alternative embodiment employing extension springs, the flexible members 26L, 26R may be secured to a fixed structure rather than to a carriage. In this case, the distance from the flexible members to the pivot axis remains constant. The attachment points of the springs to the pivoting assembly may be adjusted toward or away from the pivot axis. By moving the attachment points closer to the pivot axis, the torque exerted by the springs in opposition to pivotal movement of the pivoting assembly is reduced, whereas moving the attachment points away from the pivot axis increases the opposing torque. Movement of the spring attachment points thus adjusts the resistance to downward motion of the pedals. Lower resistance allows the pedals to follow a more elliptical path of motion, whereas higher resistance reduces the vertical displacement of the pedals.
Adjustable range limiters may be provided to set the vertical travel limits of the pedals. Such limits do not define the path of motion of the pedals since that is controlled by the amount of downward force exerted by the user; however, as a safety precaution, the range limiters define the maximum vertical displacement of the pedals.
Another alternative embodiment of the pivoting assembly is illustrated in
A further alternative arrangement of the pivoting assembly is illustrated in
Yet a further alternative arrangement of the pivoting assembly is illustrated in
Angular displacement of the shaped cam 300 is opposed by a spring plate assembly 304, which is mounted to rotate about a spring plate assembly pivot axis 305. The spring plate assembly 304 is operationally associated with the shaped cam 300 such that it may move through a much smaller angular displacement. This can be achieved via a chain-and-sprocket arrangement or gearbox. Displacement of the spring plate assembly 304 is opposed by compression of elastomeric spring 58L or 58R such that the spring plate 304, and by association the shaped cam 300, remain in a centered position.
Flexible members 26L, 26R may be flat, narrow straps of steel or Kevlar reinforced urethane or other suitable material. Alternatively, the flexible members may be round cross-section cables of high tensile strength material, such as steel, nylon or other polymers or natural fibers. In other embodiments of the invention, the flexible members may be replaced with a system of pivotal levers connecting the pedals to the frame of the apparatus. Linkages between the left and right pivotal levers are provided to coordinate the vertical movement of the pedals. The pivotal levers may be coupled to one or more devices for providing fixed or adjustable resistance to movement of the pedals, such as springs, elastomeric members, weights or a flywheel. Adjustable resistance allows the vertical decent of the pedals to be controlled in relation to the individual user's weight. Here again, adjustable range limiters may be provided to set the vertical travel limits of the pedals.
The starting height of the pedals may be made adjustable by lengthening or shortening the flexible members 26L, 26R. Shortening the flexible members shortens the radius of swing about pulleys 28L, 28R, which results in more rise at the front of the elliptical path of motion, i.e., the elliptical path is more inclined. This provides the user with the sensation of running uphill. This effect can be seen by comparing
A stepper motor or similar device may be used to adjust the length of the flexible members.
Another way to provide an inclined path of motion is to make the driver links between the pedals and crank arms adjustable in length. Referring to
Yet another way to incline the pedal paths of motion is to simply raise the front of the entire apparatus 10 as shown in
Still another way to incline the pedal paths of motion is to move the flywheel and crank arms longitudinally forward. As with shortening the driver links, this brings the pedals forward with respect to the flexible member pulleys, thereby inclining the path of motion as shown in
As mentioned above, flexible members 126L, 126R are connected to the driver links at the outboard ends of pivot pins 119L, 119R, respectively. The rotational movement of the driver link about pivot pins 119L, 119R causes take up and let out of the flexible members on their attachment cam. This causes the pedal movement to form an ellipse with forward and backward movement of the pedals even when the flexible members are not traveling through the system, thus not causing rotation of pivoting assembly 152. The flexible members are guided over pulleys 128L, 128R and pass through hollow frame members 130L, 130R. The flexible members exit the forward ends of the hollow frame members and pass around pulleys 132L, 132R. The flexible members are attached to pivoting assembly 152, which may be configured in accordance with any of the previously described embodiments, including with or without a carriage and with or without a flywheel.
Referring now to
A more compact version of the above-described apparatus 100 is shown in
It will be recognized that the above-described invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the disclosure. Thus, it is understood that the invention is not to be limited by the foregoing illustrative details, but rather is to be defined by the appended claims.
Claims
1. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having generally opposed left and right crank arms;
- left and right exercise assemblies, each comprising: a pedal link having forward and rearward portions; a foot pedal coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link;
- at least one flexible connecting member coupled to the left and right pedal links;
- a pivoting assembly mounted on the frame receiving said at least one flexible connecting member;
- wherein the left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the left and right foot pedals reciprocate upwardly and downwardly in coordination with rotation of the pivoting assembly.
2. The exercise apparatus of claim 1 wherein the left and right exercise assemblies further comprise a handle member with an upper and lower portion, said lower portion of said handle member rigidly connected to said upper portion of said rocker link, said upper portion of said handle member having a grip area adapted to receive a user's hand during exercise.
3. The exercise apparatus of claim 1 wherein said at least one flexible connecting member has a first end connected to the left pedal link and a second end coupled to the right pedal link.
4. The exercise apparatus of claim 1 wherein said at least one flexible connecting member comprises (i) a first flexible connecting member connected at one end thereof to the left pedal link and at an opposite end thereof to the pivoting assembly and (ii) a second flexible connecting member connected at one end thereof to the right pedal link and at an opposite end thereof to the pivoting assembly.
5. The exercise apparatus of claim 1 further comprising a primary flywheel coupled to the crank.
6. The exercise apparatus of claim 1 further comprising a resistance mechanism coupled to the pivoting assembly to resist angular displacement of the pivoting assembly.
7. The exercise apparatus of claim 6 wherein the resistance mechanism is adjustable to adjust displacement of the pivoting assembly in relation to a users weight.
8. The exercise apparatus of claim 6 wherein the resistance mechanism comprises a secondary flywheel operatively coupled to the pivoting assembly.
9. The exercise apparatus of claim 1 wherein the pivoting assembly includes a carriage assembly having a carriage receiving the flexible connecting member, the carriage being adjustable in a radial direction with respect to an axis of rotation of the pivoting assembly.
10. The exercise apparatus of claim 1 wherein said pivoting assembly comprises a shaped cam.
11. The exercise apparatus of claim 1 wherein the pivoting assembly comprises a pulley receiving the flexible connecting member.
12. The exercise apparatus of claim 11 further comprising a resistance mechanism coupled to the pulley to resist rotation of the pulley.
13. The exercise apparatus of claim 12 wherein the resistance mechanism is adjustable.
14. The exercise apparatus of claim 12 wherein the resistance mechanism comprises a secondary flywheel operatively coupled to the pulley.
15. The exercise apparatus of claim 1 further comprising a range limiter operatively coupled to the rotating member to limit angular displacement of the pivoting assembly.
16. The exercise apparatus of claim 15 wherein the range limiter is adjustable to adjust an angular displacement limit of the pivoting assembly.
17. The exercise apparatus of claim 1 wherein a coupling location of said at least one flexible connecting member to the left and right pedal links is adjustable.
18. The exercise apparatus of claim 1 wherein the driver links are adjustable in length.
19. The exercise apparatus of claim 1 further comprising a lifting mechanism coupled to the frame to selectively elevate a forward portion of the frame.
20. The exercise apparatus of claim 1 wherein a longitudinal position of the crank is adjustable forwardly and rearwardly on the frame.
21. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having generally opposed left and right crank arms;
- left and right exercise assemblies, each comprising: a pedal link having forward and rearward portions; a foot pedal coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link;
- at least one flexible connecting member coupled to the left and right driver links;
- a pivoting assembly mounted on the frame receiving said at least one flexible connecting member;
- wherein the left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the left and right foot pedals reciprocate upwardly and downwardly in coordination with rotation of the pivoting assembly.
22. The exercise apparatus of claim 21 wherein said at least one flexible connecting member has a first end connected to the left driver link and a second end coupled to the right driver link.
23. The exercise apparatus of claim 21 wherein said at least one flexible connecting member comprises (i) a first flexible connecting member connected at one end thereof to the left driver link and at an opposite end thereof to the pivoting assembly and (ii) a second flexible connecting member connected at one end thereof to the right driver link and at an opposite end thereof to the pivoting assembly.
24. The exercise apparatus of claim 21 wherein the left and right exercise assemblies further comprise a handle member with an upper and lower portion, said lower portion of said handle member rigidly connected to said upper portion of said rocker link, said upper portion of said handle member having a grip area adapted to receive a user's hand during exercise.
25. The exercise apparatus of claim 19 further comprising a primary flywheel coupled to the crank.
26. The exercise apparatus of claim 19 further comprising a resistance mechanism coupled to the pivoting assembly to resist angular displacement of the pivoting assembly.
27. The exercise apparatus of claim 26 wherein the resistance mechanism is adjustable.
28. The exercise apparatus of claim 26 wherein the resistance mechanism comprises a secondary flywheel operatively coupled to the pivoting assembly.
29. The exercise apparatus of claim 21 wherein the pivoting assembly includes a carriage assembly having a carriage receiving the flexible connecting member, the carriage being adjustable in a radial direction with respect to an axis of rotation of the pivoting assembly.
30. The exercise apparatus of claim 21 wherein the pivoting assembly comprises a pulley receiving the flexible connecting member mounted to the frame for rotation about an axis.
31. The exercise apparatus of claim 30 further comprising a resistance mechanism coupled to the pulley to resist rotation of the pulley.
32. The exercise apparatus of claim 31 wherein the resistance mechanism is adjustable to adjust an exercise resistance.
33. The exercise apparatus of claim 31 wherein the resistance mechanism comprises a secondary flywheel operatively coupled to the pulley.
34. The exercise apparatus of claim 21 further comprising a range limiter operatively coupled to the rotating member to limit angular displacement of the pivoting assembly.
35. The exercise apparatus of claim 34 wherein the range limiter is adjustable to adjust an angular displacement limit of the pivoting assembly.
36. The exercise apparatus of claim 21 wherein a coupling location of said at least one flexible connecting member to the left and right driver links is adjustable.
37. The exercise apparatus of claim 21 wherein the driver links are adjustable in length.
38. The exercise apparatus of claim 21 further comprising a lifting mechanism coupled to the frame to selectively elevate a forward portion of the frame.
39. The exercise apparatus of claim 21 wherein a longitudinal position of the crank is adjustable forwardly and rearwardly on the frame.
40. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having generally opposed left and right crank arms;
- left and right exercise assemblies, each comprising: a pedal link having forward and rearward portions; a foot supporting platform coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link; a suspension link suspended from the frame and pivotally coupled to the driver link;
- an interconnection linkage coupled to the left and right suspension links to coordinate reciprocal movement of the suspension links;
- wherein the left and right foot supporting platforms reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the left and right foot supporting platforms reciprocate upwardly and downwardly in coordination with movement of the interconnection linkage.
41. The exercise apparatus of claim 40 wherein the suspension links are adjustable in length.
42. The exercise apparatus of claim 40 wherein the driver links are adjustable in length
43. The exercise apparatus of claim 40 wherein pivotal coupling of each suspension link to the respective driver link is adjustable along a length of the driver link.
44. The exercise apparatus of claim 40 wherein each of the foot supporting platforms comprises a portion fixed with respect to the respective pedal link and an adjustable portion.
45. The exercise apparatus of claim 40 wherein the left and right exercise assemblies further comprise a handle member with an upper and lower portion, said lower portion of said handle member rigidly connected to said upper portion of said rocker link, said upper portion of said handle member having a grip area adapted to receive a user's hand during exercise.
46. The exercise apparatus of claim 40 wherein a portion of each foot supporting platform is vertically adjustable.
47. The exercise apparatus of claim 46 wherein a toe portion of each foot supporting platform is vertically adjustable.
48. The exercise apparatus of claim 46 wherein a heel portion of each foot supporting platform is vertically adjustable.
49. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having generally opposed left and right crank arms;
- left and right exercise assemblies coupled to respective ones of the crank arms, each of the exercise assemblies having a foot supporting platform;
- an interconnection mechanism attached to the frame and coupled to the exercise assemblies;
- wherein the left and right foot supporting platforms reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the left and right foot pedals reciprocate upwardly and downwardly in coordination with movement of the interconnection mechanism.
50. The exercise apparatus of claim 49 wherein the foot supporting platforms are pivotally connected to the respective exercise assemblies.
51. The exercise apparatus of claim 50 wherein the foot supporting platforms are pivotally connected to the respective exercise assemblies to permit movement about a non-horizontal axis.
52. The exercise apparatus of claim 51 wherein the foot supporting platforms are lockable to prevent movement about non-horizontal axes.
53. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having generally opposed left and right crank arms;
- left and right exercise assemblies, each comprising: a pedal link having forward and rearward portions; a foot pedal coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link;
- at least one flexible connecting member coupled to the left and right driver links;
- a pivoting assembly mounted on the frame receiving said at least one flexible connecting member;
- wherein the left and right foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the left and right foot pedals reciprocate upwardly and downwardly in coordination with each other.
54. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having two crank arms out of phase with each other;
- two exercise assemblies, each comprising; a pedal link having forward and rearward portions; a foot pedal coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion pivotally coupled to the forward end of the pedal link and the upper portion pivotally coupled to the frame; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to a respective crank arm and the rearward portion of the driver link pivotally coupled to the pedal link;
- at least one flexible connecting member coupled to the two exercise assemblies;
- a pivoting assembly mounted on the frame receiving said at least one flexible connecting member;
- wherein the foot pedals reciprocate forwardly and rearwardly in coordination with rotation of the crank and wherein the foot pedals reciprocate upwardly and downwardly in coordination with each other.
55. An exercise apparatus comprising:
- a frame;
- a crank rotatably coupled to the frame, the crank having two opposing crank arms out of phase with one another;
- two leg exercise assemblies, each comprising: a pedal link having forward and rearward portions; a foot support coupled to the rearward portion of the pedal link; a rocker link having upper and lower portions, the lower portion operatively coupled to the forward end of the pedal link and the upper portion operatively coupled to the frame to provide reciprocating motion; a driver link having forward and rearward portions, the forward portion of the driver link pivotally coupled to one of the crank arms and the rearward portion of the driver link pivotally coupled to the pedal link; a suspension support suspended from the frame and operatively coupled to the driver link to provide swinging motion;
- an interconnection coupled to the suspension supports of each leg exercise assembly to coordinate reciprocal movement of the suspension supports;
- wherein the foot supports of each leg exercise assembly reciprocates forwardly and rearwardly in coordination with rotation of the crank and wherein the two foot supports reciprocate upwardly and downwardly in coordination with movement of the interconnection.
Type: Application
Filed: Aug 14, 2012
Publication Date: Feb 20, 2014
Applicant: DREAM VISIONS, LLC (Tustin, CA)
Inventors: Theodore G. Habing (Tustin, CA), Christopher R. Merli (Boulder, CO)
Application Number: 13/585,637