Technical Field
The present disclosure relates to an exercise apparatus. More particularly, the present disclosure relates to the exercise apparatus (or called “Elliptical”) which can guide user's foot to move along an elliptic closed path.
Description of Related Art
The “Elliptical” or “Elliptical exercise apparatus” is an exercise apparatus which can guide a user's foot to move along an elliptic closed path, such as a stationary exercise apparatus disclosed in U.S. Pat. No. 5,540,637. This kind of exercise apparatus faces the dilemma of having a longer pedal stroke or occupying a smaller footprint. For example, the longer the crank units' length of the stationary exercise apparatus is, the longer the pedal stroke (a long axis length or a front-rear direction length) is. Although the longer pedal stroke provides an adequate leg exercise for the user, the length of the stationary exercise apparatus increases so that it occupies larger space and area. On the other hand, a shorter crank units' length help save the space, but it will restrict the leg exercise. Especially in models designed for home, how to design the structure of the exercise apparatus to be more streamline and smaller under the premise of providing sufficient exercise or to provide a longer stroke of movement under the stringent limitation of volume or length has became one of the efforts in the direction of the related designer.
In addition to design the pedal path having the sufficient length, the overall shape and the dynamic of the path should conform with ergonomics in order to have the natural and comfortable leg movement. For counterexample, improper length ratio of a major axis and a minor axis of the pedal path like a too flat or round ellipse, obvious asymmetry of the closed path like an oval, the top side of the closed path forms a concave arc like meniscus, or (compare with the crank units which rotate in a constant speed) the pedals move unsteadily along the path, all of these conditions can lead the user to feel unnatural or unsmooth during exercising.
Apart from having the sufficient total length, if the angle respect to the ground of the pedal path is designed adjustable, that is, the pedal path is “inclination adjustable” or “slope adjustable”, and conforms with ergonomics within the adjustment range as well, then this kind of exercise apparatus can provide an even richer and more comprehensive training for the user.
When the exercise apparatus having a sufficient space, such as U.S. Pat. No. 5,540,637, the handles design is usually not a problem, and can be very easy on designing the ergonomic handles. However, when the space is narrowed, setting the handles properly within the limited space and looking after three sides of lower-cost, easy manufactured, as well as ergonomics conformed are difficult problems. For example, an arm 140 of U.S. Pat. No. 7,153,239 is extended upward to form a handle 144. The arm 140 and the handle 144 are jointly and pivotally coupled to the inner side of the U-shaped frame. Although the foregoing mechanism is simple and easy to manufacture, it has at least two disadvantages. First, the inner side of the U-shaped frame and the upper side of a pedal 133 of an elliptical 100 are an exercising space supplied for the user obviously. If the handles are pivotally coupled to two ends of the inner side of the U-shaped frame respectively, it will directly reduce the exercising space and more likely cause inconvenient to use and non-ergonomic. On the other hand, if the width between two pivotal points of the two handles 144 meets the basic needs, it would increase the whole width of the frame. Second, the handles are unilateral pivotally coupled to the U-shaped frame. The handles are more prone to malfunction due to the unilateral force.
Moreover, the manufacturers want to reduce the storage and transportation costs of the exercise apparatus (as a variety of indoor exercise apparatuses), so that they usually disassemble the exercise apparatus into several parts and congest it into a smaller carton when packaging. After purchasing the exercise apparatus, the user must be in accordance with the guidelines of the assembly manual to build the scattered parts up to a completed exercise apparatus. In this way, the operation will be very tedious and laborious for the user.
According to one embodiment of the present invention, an exercise apparatus includes a frame, an adjusting mechanism, a crank assembly, first and second reciprocating members, first and second linkages, first and second swing arms and first and second supporting arms. The frame has a fixed unit and a movable unit which is movable relative to the fixed unit. The adjusting mechanism is coupled to the frame for orienting the movable unit. The crank assembly has a pair of crank units which are respectively and pivotally coupled to the frame about a first axis. The two reciprocating members are respectively and pivotally coupled to the frame about a second axis. Each linkage has a first connecting portion, a second connecting portion and a third connecting portion. The first connecting portions are respectively and pivotally coupled to the crank units and move along a circular path about the first axis. The second connecting portions are respectively and pivotally coupled to the first and second reciprocating members and move reciprocally between a first and second retracing points of a curved path about the second axis. The second connecting portions are respectively higher than the first connecting portions. The first retracing point is higher than the second retracing point of the curved path. The third connecting portions are respectively lower than the first connecting portions. Each swing arm has a top end and a bottom end. The top ends are respectively and pivotally coupled to the frame about a third axis. Each supporting arm has a first part, a second part and a third part. The first part are respectively and pivotally coupled to the bottom ends of the first and second swing arms. The second parts are respectively arranged in front of the first parts and are pivotally coupled to the third connecting portions of the first and second linkages for moving along a first closed path. The third parts are respectively arranged behind the first parts for supporting a user's feet and are moved along a second closed path. At least one of the first axis, the second axis and the third axis is arranged on the movable unit of the frame. When the movable unit is moving, the relative position among the first axis, the second axis and the third axis and the shape or the inclination of the second closed path relative to the ground will be changed.
The present invention will be apparent to those skilled in the art by reading the following detailed description of a preferred embodiment thereof, with reference to the attached drawings, in which:
In the following detailed description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the disclosed embodiments. It will be apparent, however, that one or more embodiments may be practiced without these specific details. In other instances, well-known structures and devices are schematically depicted in order to simplify the drawings.
Referring to
There is a crank assembly 40 oriented at approximate meddle height of the front pillar 14 of the stand unit 12. The crank assembly 40 has a crank shaft (not numbered) which is pivotally couple to the front pillar 14 about the left and right direction and a pair of crank units 41 which are symmetrically coupled to the two ends of the crank shaft respectively. A large pulley 42 is coaxially arranged between the two cranks 41 of the crank shaft. At the same time, the bottom of the crank assembly 40 additionally has a flywheel 43 and a small pulley 44. The flywheel 43 and the small pulley 44 are coaxially coupled to each other and pivotally connected to the front pillar 14. There is a pulley-belt 45 coupled to the large pulley 42 and the small pulley 44 so that the crank assembly 40 and the flywheel 43 rotate with each other at a predetermined speed ratio. Although there is not shown in
An extending cantilever 18 is arranged near the top end of the front pillar 14 of the stand unit 12. There are two reciprocating members 50 oriented in the left and right side of the cantilever 18 respectively. The shapes of the two reciprocating member 50 are symmetrical. Each reciprocating member 50 has a first end which is relatively forward and a second end which is relatively rearward. Each first end is pivotally connected to the front end of the cantilever 18, and the pivots of the first ends of the two reciprocating members 50 are formed coaxially. The pivots form a pivot axis A2 (hereinafter referred as a second axis) parallel to a common pivot axis of the two crank units 41 (i.e., a crank axis of a crank shaft, hereinafter referred as a first axis A1). The two reciprocating members 50 can be moved relative to each other despite they have the same pivot axis.
Each left and right side of the stand unit 12 of the front pillar 14 has a longitudinally extended linkage 60. A predetermined portion (hereinafter referred as a first connecting portion 61) oriented between the top end and bottom end of each linkage 60 is pivotally connected to the outer end of the relative crank unit 41. As shown in
The first connecting portion 61 of the linkages 60 is moved along the circular path T1, the second connection portion is moved reciprocally along the curved path T2 simultaneously, and the bottom of the linkage 60 (hereinafter referred as a third connecting portion) is moved along a first closed path T3 which is generally elliptical-like shaped. The third connecting portion of the linkage 60 will be oriented in a substantially opposite position on the first closed path T3 in the lateral view. For example, when one of the third connecting portions is oriented in the front region of the path, the other will be oriented in the opposite rear region.
There is a longitudinally extended swing arm 70 oriented behind the bottom end of each linkage 60. The top ends of the two swing arms 70 are pivotally coupled to the both sides of the opening of the U-shaped rod 16 of the stand unit 12 respectively so that the bottom end of each swing arm 70 can be moved back and forth along a swing path T4 about a third axis A3. In addition, the near top of each swing arm 70 is connected to an upward extended rocker 75. The top of the rocker 75 is higher than the third axis A3 and is formed as a handle 76 which can be griped by the user. The handle 76 also can be moved back and forth along a swaying path T5 about the third axis A3, and be moved opposite to the bottom end of the corresponding swing arm 70.
The bottom of each swing arm 70 has a longitudinally extended carrying arm 80 which has a predetermined part (hereinafter referred as a first part 81) oriented between a front end and a rear end of the carrying arm 80. The first part 81 is pivotally connected to the bottom end of the corresponding swing arm 70 so that the first part 81 is restricted to move along the swing path T4. The front end of each carrying arm 80 (hereinafter referred as a second part) is pivotally connected to the bottom end (i.e., the third connecting portion) of the corresponding linkage 60 so that the second part is restricted to move along the first closed path T3. The second parts of the carrying arms 80 will remain in substantially opposite positions on the first closed path T3 in the lateral view. Generally speaking, the first parts 81 of the carrying arms 80 are moved reversely along the swing path T4 and the handles 76 are also moved reversely along the swaying path T5.
The inner surface of the rear region of each carrying arm 80 has a pedal 82 which is oriented at the rearward of the first part 81 to form a third part for carrying the user's foot. The front end of the carrying arms 80 (i.e., the second part) is moved along the first closed path T3 and the first part 81 is moved along the swing path T4. Combining the movements of the second part and the first part 81, the pedal 82 will be moved along a second closed path T6 which is generally elliptical-like shaped (Note: The path T6 shown in
The user steps on the pedals 82 and grips the handles 76 when using the exercise apparatus. The user forces to move the pedals 82 and the handles 76 appropriately along each established path, that is the two pedals 82 are moved reversely along the second closed path T6 and the two handles 76 are moved reversely along the swaying path T5. Moreover, the same side of the handle 76 and the pedal 82 are moved opposite to each other and thereby the user can have a full-body exercising. The user can obtain a smooth and stable predetermined inertia through the flywheel 43 and the resistance assembly. Besides, the user can adjust the degree of exercising difficulty according to his/her need.
Because of the structure and specific components relationship of the present embodiment, the exercise apparatus provides the sufficient pedal stroke under its smaller volume and shorter length to achieve the purpose of space saving. Meanwhile, the overall shape of the pedal path (like T6 shown in
Referring to
The first part 81 which is oriented at the middle of the carrying arm 80 corresponds to the swing path T4. The swing path T4 is longitudinally extended and is oriented behind the first closed path T1 which corresponds to the front end of the carrying arm 80 (i.e., the second part) so that the pedal 82 can be moved along the second closed path T6 which is substantially rendered as an ellipse as well. The major axis of the second closed path T6 is substantially equal to the major axis of the first closed path T3. In other words, the stroke of the pedal 82 is about three times the diameter of the circular path T1 in the present embodiment. Comparing to heretofore known exercise apparatus (e.g., the structure of U.S. Pat. No. 5,540,637), the pedal stroke is usually equal to the diameter of the circular path. The present embodiment provides the same pedal stroke through the shorter crank unit. The length of the crank unit determines the total length of the exercise apparatus, so the present embodiment can provide a shorter length of the exercise apparatus and saving space.
Incidentally, if the position of the curved path T2 and the circular path T1 is reversed, that is if the top end of the linkage 60 is restrictedly moved along a circular path, a predetermined portion between the top end and the bottom end of the linkage 60 will be restrictedly moved along a longitudinal path at the same time. Although the bottom end of the linkage 60 is corresponding moved along a closed path, the amplification effect of the length of the major axis of the closed path is worse than the amplification effect of the length of the crank unit, and the shape of the path is similar to a semicircle rather than an ellipse so that this kind of arrangement is not practical.
The curved path T2 is close to the top rear of the circular path T1 in the present embodiment and the first retracing point P1 of the curved path T2 is oriented at the top rear of the second retracing point P2. The first retracing point P1 is higher than the second retracing point P2. The first retracing point P1 and the second retracing point P2 define a straight line L which is down through the circular path T1. The better condition is that the straight line L passes through the center of the circular path T1 as shown in
The straight line L is preset tilt rather than perpendicular to the ground in order that the major axis of the first closed path T3 has a predetermined elevation angle (which means the front end is appropriately higher than the rear end) respect to the ground. As a result, the second closed path T6 has a corresponding shape to adapt to user's leg movement. Furthermore, as shown in
The exercise apparatus of the present embodiment has a space-saving feature in a using state as described. The following will describe a packaging state of the exercise apparatus when it is leaving the factory, and the user's assembling work after purchasing the exercise apparatus.
Referring to
Referring to
Referring to
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To sum up, after unpacking the packaging carton (and possibly some positioning materials) of the exercise apparatus, the user can sequentially unfold the two folded rods 28 of the bottom unit 11, the rear bars 84 of the two carrying arms 80, the two rockers 75, and the instrument bar 13 back to their foregoing predetermined positions, and assembles the exercise apparatus rapidly and simply from the packaging state to the using state. If necessary, for example, when the exercise apparatus is not using, storing or transferring, the user may also fold it into the packaging state.
The following descriptions are the exercise apparatus according to another embodiment of the present invention. The general structure of this embodiment is the same as the foregoing described embodiment, in order to avoid being lengthy, there are solely detailing the differences.
Referring to
There is an adjusting mechanism 220 arranged between the connector 219 of the front pillar 214 and the cross bar 213 of the fixed unit 211. The adjusting mechanism 220 includes a motor assembly 221, a screw 223 and a nut 222. The rear end of the motor assembly 221 is coupled to the cross bar 216 of the fixed unit 211. One end of the screw 223 is extended longitudinally and pivotally coupled to the motor assembly 221. The nut 222 is pivotally connected to the connector 219 of the top end of the front pillar 214 and is passed through by the screw 223. The screw 223 can be rotated forward or reversely about its axis by the motor assembly 221, so that the nut 222 can be moved along the screw relative to the ground. As a result, the two front pillars 214 can be moved forward or backward about its bottom pivot shaft and can be located at a predetermined position within a scope. The scope is defined between a position of the front pillar 214 (hereinafter referred as a first position) as shown in
The crank assembly 240 is arranged on an approximate middle position of the front pillar 214 of the movable unit 212. The crank assembly 240 has two crank units 241 and a crank shaft (not numbered). The crank shaft is pivotally coupled to the front pillar 214 about a first axis A1′ and the two crank units 241 are coupled to the two end of the crank shaft respectively. When the front pillar 214 is rotated by the adjusting mechanism 220, the crank assembly 220 is moved relative to the fixed unit 211 simultaneously. In addition, the bottom of the crank assembly 240 has a flywheel 243 which can provide inertial and resistance coordinating with the resistance assembly (not shown).
The top ends of the two front pillars 214 have two rod-like reciprocating members 250 respectively. The difference between the present embodiment and the foregoing embodiment is that the two reciprocating members 250 are pivotally coupled to the two sides of the movable unit 212 about a second axis A2′ which is moved with the movable unit 212 of the frame 210. Please referring to the described embodiment for other details about the reciprocating members 250.
Two longitudinally extended linkages 260 are oriented at the outer sides of the two front pillars 214 respectively. The connection between each linkages 260 and the peripheral structure is the same with the foregoing embodiment. A first connecting portion 261 of the linkage 260 is moved along a circular path T1′ and the top end of the linkage 260, a second connecting portion, is moved along a predetermined curved path T2′ about the second axis A2′. The curved path T2′ has two retracing points (hereinafter referred as a first retracing point P1′ and a second retracing point P2′) and the second connecting portion is moved between the two retracing points. The two second connecting portions of the two linkages 260 are moved reversely along the curved path T2′ in the lateral view.
Combining the movements of the first connecting portion 261 which is moved along the circular path T1′ and the second connecting portion which is moved along the curved path T2′, the bottom end of the linkage 260 (hereinafter referred as a third connecting portion) will be moved along a first closed path T3′ which is generally elliptical-like shaped. Besides, the two third connecting portions will be located at the corresponding positions on the first closed path T3′.
A longitudinally extended swing arm 270 is oriented behind the rear end of each linkage 260. The top ends of the two swing arms 270 are pivotally coupled to the two stand units 215 of the fixed unit 211 respectively. In details, the top end of each swing arm 270 is oriented between two fixed plates 215d and is pivotally coupled to the fixed plates 215d. Therefore, the top end of the swing arm 270 and even below the approximate two-thirds of the length of the swing arm 270 are oriented at the same vertical plane with the corresponding stand unit 215. No matter from the back side, the front side or the top side of the exercise apparatus 200, the top ends of two swing arms 270 can't be seen due to a part length of the swing arm 270 is surrounded by the corresponding stand unit 215. That is the top ends of two swing arms 270 are obscured by the rear bars 215b of the stand units 215, two front bars 215a, and two cross bars 215c respectively. The bottom of each swing arm 270 can be moved back and forth along a swing path T4′ about a third axis A3′.
Additionally, the near top of each swing arm 270 is connected to an upward extended rocker 275. In details, the two rockers 275 extend toward an exercise space which is defined by the two stand units 215 and extend upward to the inner side of the two stand units 215, so that the top of each rocker 275 is higher than the third axis A3 and is formed as a handle 276 which can be griped by the user. The handles 276 also can be moved back and forth along a swaying path T5′ about the third axis A3′, and be moved opposite to the bottom end of the corresponding swing arm 270. As shown in
The structures of two carrying arms 280, two pedals 282 and their connections with other elements are the same as the foregoing embodiment, so please referring to the described embodiment for details. Combining the movements of the second part of the carrying arm 280 which is moved along the first closed path T3′ and the first part 281 which is moved along the swing path T4′, the pedal 282 will be moved along a second closed path T6′ which is generally elliptical-like shaped. The second closed path T6′ shown in
The same with the described embodiment, the present embodiment can provide the sufficient pedal stroke under its smaller volume and shorter length to achieve the purpose of space saving. Meanwhile, the overall shape of the pedal path as well as the pedal dynamic motion are not only ergonomics conformed but also natural and comfortable for the user. Moreover, the user can control the position of the movable unit 212 of the frame 210 via the adjusting mechanism 220, so that he/she may have a different pedal movement path relative to the ground. Referring to
The exercise apparatus 200 has the adjusting mechanism 220 which can locate the movable unit 212 of the frame between a first position (i.e. as shown in
When the adjusting mechanism 220 starts operating, the movable unit 212 of the frame 210 starts rotated, the first axis A1′ and the second axis A2′ will be moved along with the fixed unit 211 until the movable unit 212 is located at a predetermined position which is set by the user. Regardless of the movable unit 212 is located at any position, the exercise apparatus 200 can still have the ergonomic features. The reason is that the displacement of the movable unit 212 will not change the relative positions of the first axis A1′ and the second axis A2′, the length of the crank unit 241, the length of the reciprocating member 250, the length between the first connecting portion 261 and the second connecting portion of the linkage 260. For instance, as shown in
Comparing
More particularly, in order to change the inclination of the second closed path T6′, altering the positions of the first axis A1′ and the second axis A2′ is not the only way. In other possible embodiments, the crank shaft of the crank assembly (viewed as the first axis) can be arranged on the fixed unit of the frame and the shaft of the reciprocating member (viewed as the second axis) can be arranged on the movable unit. In the present embodiment, for example, the skilled person can easily arrange a cross bar (not shown) on the left and right stand units 215 corresponding to the first axis A1′, and alter the first axis A1′ from the movable unit 212 to the cross bar. That is, the crank assembly 240 is arranged on the cross bar and the positions of the two reciprocating members 250 remain unchanged. Therefore, the inclination of the second closed path T6′ can still be adjusted by changing the position of the reciprocating member 250. With different inclinations, the shape of the second closed path T6′ will be changed slightly. As long as the adjustment is within a reasonable range, the foregoing amendments not depart from one of the spirit of the present invention: “When the adjusting mechanism 220 moves the movable unit 212 of the frame 210, the straight line L′ defined by the two retracing points P1′, P2′ of the curved path T2′ is down through the circular path T1′ in the lateral view,” and still able to maintain a certain degree of ergonomic advantages.
If only by changing the position of the second axis A2′ to achieve the purpose of adjusting the exercise intensity, respect to the second embodiment of the present invention may not require such a relatively high bearing capacity of the structure like the front pillar 214. In order to save manufacturing costs, the designer may use a shorter rotating bar (not shown) to replace the front pillar 214 in other possible changes. For example, the length of the shorter rotating bar is only half of the front pillar, or even less. The bottom end of the rotating bar is pivotally connected to the fixing unit 211 of the frame 210 and its top end is similarly connected to the adjusting mechanism 220 for achieving the purpose of adjusting the position of the second axis.
Furthermore, in order to adjust the inclination of the second closed path T6′, altering the positions of the first axis A1′ and the second axis A2′ is not the only way, there is a way by changing the position of the third axis A3′. About the adjustment of the third axis A3′, please refer to U.S. Pat. No. 7,682,290, U.S. Pat. No. 7,744,508 or U.S. Pat. No. 7,976,435 which are applied by the applicant. As to how to apply those technologies to the present invention, a person has ordinary skill in the art to the field of exercising apparatuses should complete it without undue experimentations, so that the details are not narrated herein.
In the present embodiment, the adjusting mechanism 220 is electrical controlled, but the position of the movable unit 212 can be changed manually in other embodiments such as using a pin and a positioning hole. With some modifications of the related technologies of U.S. Pat. No. 7,654,936 or U.S. Pat. No. 7,846,071, then it can be applied in the present invention.
It should be added that the main advantages of the configuration of the handle 276 of the present embodiment are durable, remaining the current exercising space between two stand units 215, remaining the current occupied space of the exercise apparatus and achieving better ergonomics. In details, the handle 276 is moved along the swaying path T5′ about a bearing which is the pivotal junction of the top end of the swing arm 270 and its corresponding stand unit 215. The two fixed plates 215d which are fixed at the stand unit 215 are pivotally coupled to the top end of the two swing arms 270 respectively. Under the situation of sharing the stress equally and symmetrically to the two fixed plates 215d, the structure of the present embodiment is stronger and more durable than the structure of U.S. Pat. No. 7,153,239. The bearing of the handle 276 is in the same vertical plane with the stand unit 215 but not at the inner side or the outer side of the stand unit 215 so that it will not affect the inner exercising space of the stand unit 215 or increase the outer occupied space. Additionally, referring to
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
This is a continuation of U.S. patent application Ser. No. 13/802,348 filed on Mar. 13, 2013, which claims priority to China Application Serial Number 201210081616.7, filed Mar. 26, 2012.