Apparatus for positioning a component of an exercise device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A63B-022/06
A63B-069/16
B42F-001/00
출원번호
UP-0192928
(2008-08-15)
등록번호
US-7806809
(2010-10-26)
발명자
/ 주소
Bingham, Jr., Robert J.
Selby, Ryan P.
Everson, Neil P.
Robertson, Paul A.
출원인 / 주소
LeMond Fitness, Inc.
대리인 / 주소
Davis Wright Tremaine LLP
인용정보
피인용 횟수 :
5인용 특허 :
4
초록▼
An exercise device including at least one positionable component configured to be positioned by a user. The exercise device includes a frame to which a collar is mounted. The positionable component includes a member slidably received within the collar that may be positioned therein by sliding. A loc
An exercise device including at least one positionable component configured to be positioned by a user. The exercise device includes a frame to which a collar is mounted. The positionable component includes a member slidably received within the collar that may be positioned therein by sliding. A locking assembly is coupled to the collar and operable to lock the member in a selected position within the collar, release the member from the locked position, and when released, allow the member to slide within the collar. The locking assembly includes a cam pivotably mounted to the collar and a cam follower assembly selectively biased by the cam against a portion of the member disposed inside the collar. The locking assembly also includes a pair of engagement members disposed inside the collar opposite the cam. The engagement members are moveable relative to one another and biased by the cam against member.
대표청구항▼
The invention claimed is: 1. An exercise device comprising a frame, a positionable component, and a locking assembly comprising: a collar attached to the frame, the collar having an interior channel defined by a sidewall and a through-hole formed in the sidewall communicating with the interior chan
The invention claimed is: 1. An exercise device comprising a frame, a positionable component, and a locking assembly comprising: a collar attached to the frame, the collar having an interior channel defined by a sidewall and a through-hole formed in the sidewall communicating with the interior channel; a member having a member sidewall with an elliptical cross-sectional shape with a major axis extending across a widest portion of the elliptical cross-sectional shape from a first end portion to a second end portion and bifurcating the member sidewall into a first side portion and a second side portion, the member being slidably received inside the interior channel of the collar and configured to slide back and forth along a predetermined sliding path, the through-hole formed in the sidewall of the collar being adjacent to the second end portion of the member sidewall, the positionable component being attached to the member and positioned to move along with the member when the member is slid back and forth along the predetermined sliding path; a first engagement member disposed inside the interior channel of the collar adjacent to the first end portion of the member sidewall, the first engagement member being configured to engage portions of both the first side portion and the second side portion of the member sidewall located toward the first end portion of the member sidewall; a second engagement member disposed inside the interior channel of the collar adjacent to the first end portion of the member sidewall and spaced from the first engagement member along the predetermined sliding path, the second engagement member being movable relative to the first engagement member, the second engagement member being configured to engage portions of both the first side portion and the second side portion of the member sidewall located toward the first end portion of the member sidewall; a cam pivotally coupled to the collar and configured to pivot between a locked position and an unlocked position; and a cam follower assembly disposed between the cam and the member at the through-hole formed in the sidewall of the collar, the cam follower assembly having a movable engagement member configured to be biased by the cam, the movable engagement member being adjacent to the second end portion of the member sidewall and located between the first engagement member and second engagement member along the predetermined sliding path, the movable engagement member comprising a pair of force distribution members disposed inside the through-hole formed in the sidewall, one of the pair of force distribution members being adjacent to the first side portion of the member sidewall and the other of the pair of force distribution members being adjacent to the second side portion of the member sidewall, when the cam is pivoted into the locked position, the cam biases the movable engagement member through the through-hole moving the one of the pair of force distribution members into locking engagement with the first side portion of the member sidewall and the other of the pair of force distribution members into locking engagement with the second side portion of the member sidewall, thereby locking the member within the collar and preventing its slide along the predetermined sliding path, when the cam is pivoted into the unlocked position, and the cam does not bias the pair of force distribution members into locking engagement with the first side portion and the second side portion of the member sidewall, thereby releasing the member within the collar and permitting its slide along the predetermined sliding path. 2. The exercise device of claim 1, wherein the first engagement member comprises a first engagement flange and a second engagement flange, the first engagement flange of the first engagement member positioned for engagement with the first side portion of the member sidewall, and the second engagement flange of the first engagement member positioned for engagement with the second side portion of the member sidewall, and the second engagement member comprises a first engagement flange and a second engagement flange, the first engagement flange of the second engagement member positioned for engagement with the first side portion of the member sidewall, and the second engagement flange of the second engagement member positioned for engagement with the second side portion of the member sidewall. 3. The exercise device of claim 1, wherein each of the pair of force distribution members comprises a projection extending toward the member, and the movable engagement member further comprises: a guard member having an interior cavity with first and second hollow portions, each partially defined by an outside guard surface positioned for locking engagement with the first and second side portions of the member sidewall, the pair of force distribution members being nested inside the interior cavity of the guard member, the projection of the one of the pair of force distribution members being received inside the first hollow portion of the guard member and the projection of the other of the pair of force distribution members being received inside the second hollow portion of the guard member such that when the cam is pivoted into the locked position a portion of the outside guard surface partially defining the first hollow portion engages the first side portion of the member sidewall, and a portion of the outside guard surface partially defining the second hollow portion engages the second side portion of the member sidewall. 4. The exercise device of claim 3, wherein a gap is provided between the pair of force distribution members nested inside the interior cavity of the guard member, the gap being configured to allow the pair of force distribution members to move relative to one another when the cam is pivoted into the locked position and into the unlocked position. 5. The exercise device of claim 3, wherein the guard member of the movable engagement member comprises an opening between the first and second hollow portions, the opening being configured to allow the guard member to flex when the projections of the pair of force distribution members are biased into locking engagement with the first and second side portions of the member sidewall. 6. The exercise device of claim 3, wherein the projection of the one of the pair of force distribution members has a tapered surface facing toward the first side portion of the member sidewall and the projection of the other of the pair of force distribution members has a tapered surface facing toward the second side portion of the member sidewall, and the portion of the outside guard surface partially defining the first hollow portion is adjacent to the tapered surface of the projection of the one of the pair of force distribution members and the portion of the outside guard surface partially defining the second hollow portion is adjacent to the tapered surface of the projection of the other of the pair of force distribution members. 7. The exercise device of claim 3, wherein the cam is configured such that when pivoted into the locked position, the cam exerts a biasing force on the movable engagement member, and the movable engagement member further comprises: a mechanical fuse positioned and configured to receive the biasing force exerted by the cam when the cam is pivoted toward the locked position, to translate at least a portion of the biasing force to the pair of force distribution members, and to deform in response to the biasing force if the biasing force exceeds a predetermined amount of force, the force translated to the pair of force distribution members being sufficient to move the pair of force distribution members and the guard member in which they are nested toward the member sidewall and bias the portion of the outside guard surface partially defining the first hollow portion into locking engagement with the first side portion of the member sidewall, and the portion of the outside guard surface partially defining the second hollow portion into locking engagement with the second side portion of the member sidewall. 8. The exercise device of claim 7, wherein each of the pair of force distribution members includes first and second support portions with a cavity therebetween, and the mechanical fuse engages the first and second support portions of each of the pair of force distribution members and extends over the cavities defined therebetween, the cavities being sized to provide sufficient space into which the mechanical fuse may deform in response to the biasing force if the biasing force exceeds a predetermined amount of force. 9. The exercise device of claim 7, wherein the guard member includes a plurality of fingers that each terminate in a tab engaging the mechanical fuse to thereby maintain the pair of force distribution members inside the interior cavity of the guard member. 10. The exercise device of claim 1, wherein the cam is configured such that when pivoted into the locked position, the cam exerts a biasing force on the movable engagement member, and the movable engagement member further comprises: a mechanical fuse positioned and configured to receive the biasing force exerted by the cam when the cam is pivoted toward the locked position, to translate at least a portion of the biasing force to the pair of force distribution members, and to deform in response to the biasing force if the biasing force exceeds a predetermined amount of force, the force translated to the pair of force distribution members being sufficient to move the pair of force distribution members toward the member sidewall, bias the one of the pair of force distribution members into locking engagement with a portion of the first side portion of the member sidewall, and bias the other of the pair of force distribution members into locking engagement with a portion of the second side portion of the member sidewall, thereby locking the member within the collar and preventing its slide along the predetermined sliding path. 11. The exercise device of claim 10, wherein each of the pair of force distribution members includes first and second support portions with a cavity therebetween, and the mechanical fuse engages the first and second support portions of each of the pair of force distribution members and extends over the cavities defined therebetween, the cavities being sized to provide sufficient space into which the mechanical fuse may deform in response to the biasing force if the biasing force exceeds a predetermined amount of force. 12. The exercise device of claim 1, wherein the first and second engagement members comprise first and second spaced apart end portions of an elongated bearing plate. 13. The exercise device of claim 12, wherein the bearing plate includes at least one tab configured to attach the bearing plate inside the interior channel of the collar. 14. The exercise device of claim 12, wherein the bearing plate is constructed from plastic coated with or impregnated by Teflon or molybnum sulfide. 15. The exercise device of claim 1, wherein the cam is pivotally coupled to the collar by an eccentric pivot pin configured to adjust the position of the cam relative to the member slidably received inside the interior channel of the collar. 16. An exercise device comprising a frame, a positionable component, and a locking assembly configured to selectively lock an elongated member within a retaining member against longitudinal movement within a passageway of the retaining member and unlock the elongated member for longitudinal movement within the passageway of the retaining member, the locking assembly comprising: an elongated member positioned inside the passageway of the retaining member and longitudinally movable within the passageway, the positionable component being attached to the elongated member and movable therewith; a first engagement member disposed inside the passageway of the retaining member along a first portion of the passageway and configured to engage a first portion of the elongated member inside the passageway; a second engagement member disposed inside the passageway of the retaining member along a second portion of the passageway spaced apart from the first engagement member and configured to engage a second portion of the elongated member inside the passageway longitudinally spaced apart from the first portion of the elongated member; a handle having a grip portion and a cam coupled thereto, the cam being movably mounted to the retaining member and the grip portion being configured for selective movement of the cam between a locked position and an unlocked position; and a cam follower assembly positioned adjacent to the cam and having a third engagement member positioned and configured to engage a third portion of the elongated member inside the passageway at a longitudinal location between the first and second portions of the elongated member inside the passageway on a side of the elongated member away from the first and second portions, the cam follower assembly comprising: a contact member having first and second hollow portions, each partially defined by an outside contact surface positioned for engagement with the third portion of the elongated member inside the passageway, a first force distribution member having a first projection extending toward the elongated member, the first projection being received inside the first hollow portion of the contact member, and a second force distribution member having a second projection extending toward the elongated member, the second projection being received inside the second hollow portion of the contact member, when the cam is moved to the locked position, a portion of the outside contact surface of the first hollow portion and a portion of the outside contact surface of the second hollow portion engage and apply an inward force to the third portion of the elongated member at laterally spaced apart locations which is transmitted by the first and second portions of the elongated member to the first and second engagement members, respectively, to thereby lock the elongated member against longitudinal movement within the passageway, and when the cam is moved to the unlocked position a sufficient amount of the inward force is removed to permit longitudinal movement of the elongated member within the passageway. 17. The exercise device of claim 16, wherein the contact member comprises an opening between the first and second hollow portions, the opening being configured to allow the contact member to flex when the cam follower assembly is moved into the locked position. 18. The exercise device of claim 16, wherein the first and second force distribution members are configured to move relative to each other. 19. The exercise device of claim 16, wherein a gap is defined between the first and second force distribution members, the gap being configured to allow the pair of force distribution members to move relative to one another as the cam is moved toward the locked position and toward the unlocked position. 20. The exercise device of claim 16, wherein the first projection of the first force distribution member has a tapered surface facing laterally inward toward the third portion of the elongated member and the second projection of the second force distribution member, and the second projection of the second force distribution member has a tapered surface facing inward toward the third portion of the elongated member and the first projection, and the portion of the outside contact surface of the first hollow portion is adjacent to the tapered surface of the first projection and the portion of the outside contact surface of the second hollow portion is adjacent to the tapered surface of the second projection. 21. The exercise device of claim 16, wherein the cam is configured such that when the cam is moved toward the locked position, the cam exerts a biasing force on the third engagement member, the third engagement member including a mechanical fuse configured to receive the biasing force exerted by the cam and to deform in response thereto if the biasing force exceeds a predetermined amount of force. 22. The exercise device of claim 21, wherein the contact member includes a portion extending at least partially over the mechanical fuse to retain the mechanical fuse in position relative to the first and second force distribution members. 23. The exercise device of claim 22, wherein the first force distribution member includes first and second support portions with a first cavity therebetween, the second force distribution member includes first and second support portions with a second cavity therebetween, the mechanical fuse engages the first and second support portions of the first force distribution member to transfer the biasing force to the first force distribution member, the mechanical fuse engages the first and second support portions of the second force distribution member to transfer the biasing force to the second force distribution member, and the mechanical fuse extends over the first and second cavities, which are sized to provide sufficient space into which the mechanical fuse may deform in response to the biasing force if the biasing force exceeds the predetermined amount of force. 24. The exercise device of claim 16, wherein the first engagement member includes first and second engagement flanges at laterally spaced apart positions to engage the first portion of the elongated member inside the passageway at laterally spaced apart locations, and the second engagement member includes first and second engagement flanges at laterally spaced apart positions to engage the second portion of the elongated member inside the passageway at laterally spaced apart locations. 25. The exercise device of claim 16, for use with the retaining member comprising a collar having: a sidewall defining the passageway, and a housing formed in the sidewall, the housing having a proximal open end and a distal open end spaced therefrom, the proximal open end of the housing being adjacent to and in communication with the passageway, the third engagement member extending through the proximal open end of the housing, wherein the cam is pivotally mounted to the housing and the grip portion exits the housing through the distal open end of the housing. 26. The exercise device of claim 25, wherein the cam is pivotally coupled to the housing by an eccentric pivot pin configured to adjust the position of the cam relative to the elongated member. 27. An exercise device comprising: a frame; a retaining member attached to the frame and including a sidewall defining an interior channel and a sidewall aperture communicating with the interior channel; and a positionable component attached to an elongated member positioned inside the interior channel and longitudinally movable within the interior channel; and a locking assembly comprising: a first engagement member disposed inside the interior channel along a first portion of the sidewall and configured to engage a first portion of the elongated member inside the interior channel; a second engagement member disposed inside the interior channel along a second portion of the sidewall spaced apart from the first engagement member and configured to engage a second portion of the elongated member inside the interior channel longitudinally spaced apart from the first portion of the elongated member; a handle having a grip portion and a cam coupled to the grip portion for movement with the grip portion, the cam being mounted to the retaining member and the grip portion being positioned for manual operation thereof by a user, the grip portion being configured for selective movement of the cam between a locked position and an unlocked position; and a cam follower assembly positioned adjacent to the cam and having a third engagement member extending through the sidewall aperture of the retaining member and configured to engage a third portion of the elongated member inside the interior channel at a longitudinal location between the first and second portions of the elongated member inside the interior channel on a side of the elongated member away from the first and second portions, the cam follower assembly comprising a first force distribution member having a first projection extending toward the elongated member, and a second force distribution member having a second projection extending toward the elongated member, when the cam is moved to the locked position the third engagement member is moved inward causing the first projection and the second projection to apply an inward force to the third portion of the elongated member at laterally spaced apart locations which is transmitted by the first and second portions of the elongated member to the first and second engagement members, respectively, to thereby lock the elongated member against longitudinal movement within the interior channel, and when the cam is moved to the unlocked position a sufficient amount of the inward force is removed to permit longitudinal movement of the elongated member within the interior channel. 28. The exercise device of claim 27, wherein a gap is defined between the first and second force distribution members, the gap being configured to allow the first and second force distribution members to move relative to one another when the cam is moved toward the locked position and toward the unlocked position. 29. The exercise device of claim 27, wherein the first force distribution member is independently movable relative to the second force distribution member. 30. The exercise device of claim 27, wherein the third engagement member further comprises: a contact member having first and second hollow portions, each partially defined by an outside contact surface positioned for engagement with the third portion of the elongated member inside the interior channel, the first projection of the first force distribution member being received inside the first hollow portion of the contact member and the second projection of the second force distribution member being received inside the second hollow portion of the contact member such that when the cam is moved to the locked position a portion of the outside contact surface of the first hollow portion and a portion of the outside contact surface of the second hollow portion engage the third portion of the elongated member at the laterally spaced apart locations, the inward force applied by the first projection and the second projection to the third portion being translated thereto through the portion of the outside contact surface of the first hollow portion and the portion of the outside contact surface of the second hollow portion engaging the third portion of the elongated member. 31. The exercise device of claim 30, wherein the contact member comprises an opening between the first and second hollow portions, the opening being configured to allow the contact member to flex when the cam is moved into the locked position. 32. The exercise device of claim 31, wherein a gap is defined between the first and second force distribution members, the gap being configured to allow the pair of force distribution members to move relative to one another when the cam is moved toward the locked position, the movement of the first and second force distribution members causing the contact member to flex and at least partially conform to the third portion of the elongated member. 33. The exercise device of claim 30, wherein the contact member includes a portion extending at least partially over the mechanical fuse to retain the mechanical fuse in position relative to the force distribution member. 34. The exercise device of claim 27, wherein the cam is configured such that when the cam is moved toward the locked position, the cam exerts a biasing force on the third engagement member, and the third engagement member further comprises: a mechanical fuse configured to receive the biasing force exerted by the cam and to deform in response thereto if the biasing force exceeds a predetermined amount of force, the mechanical fuse being positioned between the cam and the first and second force distribution members. 35. The exercise device of claim 27, wherein the first projection of the first force distribution member has a tapered surface facing laterally inward toward the third portion of the elongated member and the second projection of the second force distribution member, and the second projection of the second force distribution member has a tapered surface facing inward toward the third portion of the elongated member and the first projection. 36. The exercise device of claim 27, wherein the cam is configured such that when the cam is moved toward the locked position, the cam exerts a biasing force on the third engagement member, and the third engagement member further comprises: a mechanical fuse configured to receive the biasing force exerted by the cam and to deform in response thereto if the biasing force exceeds a predetermined amount of force. 37. The exercise device of claim 36, wherein the first force distribution member includes first and second support portions with a first cavity therebetween, the second force distribution member includes first and second support portions with a second cavity therebetween, the mechanical fuse engages the first and second support portions of the first force distribution member and the first and second support portions of the second force distribution member to transfer the biasing force to the first and second force distribution members, the mechanical fuse extends over the first and second cavities, which are sized to provide sufficient space into which the mechanical fuse may deform in response to the biasing force if the biasing force exceeds the predetermined amount of force. 38. The exercise device of claim 27, wherein the first engagement member includes first and second engagement flanges at laterally spaced apart positions to engage the first portion of the elongated member inside the interior channel at laterally spaced apart locations, and the second engagement member includes first and second engagement flanges at laterally spaced apart positions to engage the second portion of the elongated member inside the interior channel at laterally spaced apart locations. 39. The exercise device of claim 27, wherein the cam is pivotally coupled to the retaining member by an eccentric pivot pin configured to adjust the position of the cam relative to the elongated member. 40. A stationary bicycle comprising a seat, pedals, handlebars, a resistance mechanism, a frame, and a locking assembly supported by the frame, the locking assembly being configured to selectively lock an elongated member within a retaining member coupled to the frame against longitudinal movement within a passageway of the retaining member and unlock the elongated member for longitudinal movement within the passageway of the retaining member, the seat or the handlebars being couplable to the elongated member and movable therewith, the locking assembly comprising: a first engagement member disposed inside the passageway of the retaining member along a first portion of the passageway and configured to engage a first portion of the elongated member inside the passageway; a second engagement member disposed inside the passageway of the retaining member along a second portion of the passageway spaced apart from the first engagement member and configured to engage a second portion of the elongated member inside the passageway longitudinally spaced apart from the first portion of the elongated member; a handle having a grip portion and a cam coupled thereto, the cam being movably mounted to the retaining member and the grip portion being configured for selective movement of the cam between a locked position and an unlocked position; and a cam follower assembly positioned adjacent to the cam and having a third engagement member positioned and configured to engage a third portion of the elongated member inside the passageway at a longitudinal location between the first and second portions of the elongated member inside the passageway on a side of the elongated member away from the first and second portions, the third engagement member comprising a mechanical fuse, a contact member, a first force distribution member, and a second force distribution member, the mechanical fuse being positioned and configured to receive a biasing force exerted by the cam when the cam is pivoted toward the locked position, to translate at least a portion of the biasing force to the first and second force distribution members, and to deform in response to the biasing force if the biasing force exceeds a predetermined amount of force, the contact member having first and second hollow portions, each partially defined by an outside contact surface positioned for engagement with the third portion of the elongated member inside the passageway, at least a portion of the first force distribution member being received inside the first hollow portion of the contact member and the at least a portion of the second force distribution member being received inside the second hollow portion of the contact member such that when the cam is moved to the locked position, the portion of the biasing force translated to the first and second force distribution members by the mechanical fuse moves a portion of the outside contact surface of the first hollow portion and a portion of the outside contact surface of the second hollow portion inwardly into locking engagement with the third portion of the elongated member at laterally spaced apart locations to apply an inward force to the third portion of the elongated member which is transmitted by the first and second portions of the elongated member to the first and second engagement members, respectively, to thereby lock the elongated member against longitudinal movement within the passageway, and when the cam is moved to the unlocked position a sufficient amount of the inward force is removed to permit longitudinal movement of the elongated member within the passageway. 41. The stationary bicycle of claim 40, wherein the contact member includes a portion extending at least partially over the mechanical fuse to retain the mechanical fuse in position relative to the force distribution member. 42. The stationary bicycle of claim 40, wherein the first force distribution member comprises first and second support portions with a first cavity therebetween, the second force distribution member comprises first and second support portions with a second cavity therebetween, the mechanical fuse engages the first and second support portions of the first force distribution member to transfer a first portion of the biasing force to the first force distribution member, the mechanical fuse extending over the first cavity, the mechanical fuse engages the first and second support portions of the second force distribution member to transfer a second portion of the biasing force to the second force distribution member, the mechanical fuse extending over the second cavity, and the first and second cavities are sized to provide sufficient space into which the mechanical fuse may deform in response to the biasing force if the biasing force exceeds the predetermined amount of force.
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