US3086406A - Arrangement for adjusting the pivotal point of a part - Google Patents

Arrangement for adjusting the pivotal point of a part Download PDF

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US3086406A
US3086406A US135692A US13569261A US3086406A US 3086406 A US3086406 A US 3086406A US 135692 A US135692 A US 135692A US 13569261 A US13569261 A US 13569261A US 3086406 A US3086406 A US 3086406A
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lever
arcuate
center
guiding
elements
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US135692A
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Voscr Otto
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05GCONTROL DEVICES OR SYSTEMS INSOFAR AS CHARACTERISED BY MECHANICAL FEATURES ONLY
    • G05G7/00Manually-actuated control mechanisms provided with one single controlling member co-operating with one single controlled member; Details thereof
    • G05G7/02Manually-actuated control mechanisms provided with one single controlling member co-operating with one single controlled member; Details thereof characterised by special provisions for conveying or converting motion, or for acting at a distance
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05GCONTROL DEVICES OR SYSTEMS INSOFAR AS CHARACTERISED BY MECHANICAL FEATURES ONLY
    • G05G2700/00Control mechanisms or elements therefor applying a mechanical movement
    • G05G2700/12Control mechanisms with one controlling member and one controlled member
    • G05G2700/16Mechanisms for conveying motion or signals for or in relation with control mechanisms
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/20Control lever and linkage systems
    • Y10T74/20528Foot operated
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/20Control lever and linkage systems
    • Y10T74/20558Variable output force
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/20Control lever and linkage systems
    • Y10T74/20558Variable output force
    • Y10T74/2057Variable input leverage

Definitions

  • a first member is provided with at least two arcuate slopes facing each other, and pivoting elements associated each with one slope, each element being adapted to be shifted over the cooperating slope or, reversely, each slope being adapted to slide over the corresponding element, the center of curvature of each slope being adapted to register with the pivotal axis of the element associated with the opposite slope, while a second member is provided with means for keeping constant the spacing between the pivotal axes of the two elements, the whole arrangement being such that, a constant force being applied to any point of one of the two members, the latter moves with reference to the other member by rotating in succession around the two pivotal axes whereby the force transmitted to another point of the last mentioned member, varies throughout the duration of rotation of the latter.
  • FIG. 1 is a transverse sectional view of my improved arrangement as incorporated with a pedal.
  • FIGS. 2 and 3 are views similar to FIG. 1, showing the operation of such an arrangement.
  • FIG. 4 is a sectional view through line lVIV of FIG. 5 of a bicycle brake incorporating my improved arrangement.
  • FIG. 5 is a sectional view through line VV of FIG. 4.
  • FIG. 6 illustrates a modification of FIGS. 4 and 5 wherein the roller forming a cam-follower is replaced by a mere slideway.
  • FIGS. 7, 8 and 9 show further modifications of the camming means defining the shifting of operation between one center of curvature and another.
  • FIG. 10 illustrates a still further modification of the camming means. 1
  • FIGS. 1 and 2 The arrangement according to FIGS. 1 and 2 includes a member or casing 12 along opposite sloping sides of the inner surface of which are slidingly carried two elements 15 and 16 which are pivotally connected to a lever 10.
  • Said casing is in the shape of a heart and is provided inwardly with two sloping surfaces 13 and 14 meeting each other at one end, and the radius of curvature of which has a center registering with the pivotal center of the element sliding over the opposite sloping surface.
  • the end of the casing opposed to the meeting between the sloping surface is provided with two stops 17 and 18.
  • the elements 15 and 16 are pivotally secured to the lever member 10 through the agency of two points 21 and 22 respectively.
  • the lever 10 of which one end carries the spaced pivots 21 and 22 for the slider elements 15 and 16 is provided at its outer end with a flaring section 11 adapted to form a pedal for the operators foot.
  • a spring 23 urges the pedal back into its starting position.
  • the arrangement may be applied to a bicycle brake, so as to allow an instantaneous and protracted braking without any breaking of a cable or any straining of the cyclists hand.
  • Said brake illustrated in FIGS. 4 to 6 includes two jaws 4 and 5, pivotally secured together at 6 and between which is positioned an intermediate member 3.
  • a brake cable which is not illustrated slidingly engages the jaw '4 at 40 and it is secured at 30 to the member 3, so as to act on the latter with a force P which urges it towards the jaw 4.
  • the member 3 in the general shape of a lever, is provided along its inner surface with two ridges or ribs 33 and 34 forming slopes 35 and 36 over which the sliders 31 and 32 are adapted to move.
  • Said sliders of a semicircular shape are held fast between the said slopes and recesses 42 and 43 formed in a projecting section of the jaw 4.
  • Said sliders may rock in said recesses round their axes A and B respectively.
  • the lateral centering of the member 3 with reference to the jaw 4 is obtained, on the one hand, by reducing the curvature of the inner slope sections 35 and 36 and by inserting an abutment roller 37.
  • the latter is secured to the member 3 at 30 and is adapted to move over the lateral arcuate surfaces 45 and 46 of a cam 44 rigid with the jaw '4.
  • the center of curvature of the surface 46 is at A and of the surface 45 at B.
  • the jaws 54 and 36 are provided at their upper end i with a spur-shaped extension in which is formed an opening 51 slidably carrying a threaded rod 52. Said extension 5% is adapted to be subjected to a stress R exerted by the member 3 and which varies when the force F transmitted to said member at 30 remains constant.
  • the stress R is transmitted by the projection 38 of the lever 3 to the head 54 of the rod 52.
  • a part spherical nut.53 screwed over the rod 52 and engaging the extension 52 allows transmitting said stress whatever may be the relative position of the member 3 with reference to the jaw 5.
  • the lever 3 At the beginning of the braking, the lever 3 is in its raised position; the roller 37 engages the upper end of the surface 46 of the cam 44. The pivotal center of the lever member 3 lies then at A.
  • the lever arm defining the stress R is equal to the shortest distance separating the point A from the axis of the rod 52.
  • the roller 37 may be replaced by suitable slideways 310 and 311 cut in the member 3 and over which the cam surfaces 45 and 46 rigid with the projection 4d of the jaw 4 are adapted to move.
  • roller 7 which latter is inserted between the member 3 and the projection 47 rigid with the jaw 4 and revolvably carrying said roller 7.
  • the slopes on which the sliders slide may, in contradistinction with the preceding embodiments, be provided on the inner member and the slider elements themselves may be held fast partly inside recesses formed along the pe-' riphery of the outer member.
  • Said slider elements may be constituted, as precedingly, by elements adapted to slide each over the corresponding slope (FIG. 8) or, in contradistinction, by rollers rolling over the latter (FIG. 9).
  • the abutment roller preventing the transverse movement of the inner member is, in this modification, housed inside the outer member, as illustrated in FIGS. 8 and 9.
  • the radii of curvature of the slopes on which the slider elements slide or roll register as precedingly with the pivotal axes of the slider elements.
  • the arrangement includes a first member which is not illustrated, provided with two axes 8 and 9, carrying the rollers 80 and 90.
  • the latter may move inside a second member 10% fitted over the former and provided with a recess, of which two walls, 101 and 102, form the raceways for the rollers 80 and 90.
  • Each depression is adapted to lock in position one of the rollers at the center of curvature of the opposite slope while the other roller moves over the said opposite slope.
  • the applications of my improved arrangement are obviously not limited to a foot-controlled brake or to a bicycle brake and its applications are manifold, in particular whenever it is desired to modify the point of pivoting of a lever with a view to increasing its efficiency.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces mating and slidingly engaging each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, and bounded between a half circle and an arcuate line extending between the ends of said half circle and passing through the center of said half circle, a member provided with two arcuate surfaces matching each one of said arcuate lines and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate bounding line, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two rollers revolvably secured at points on said lever, a member provided with two arcuate surfaces serving as raceways for the rollers and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an opera-tive member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, abutments rigid with said member and limiting the travel of the arcuate elements over the cooperating arcuate surfaces to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements, spindles carrying said rollers and rigidly secured at points on said lever, a member provided with two arcuate surfaces serving as raceways for the rollers and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, an operative member controlled from a further point on the lever and cooperating interengaging means on the lever and on the member and adapted to prevent relative transverse movement between the latter.
  • a lever system comprising a lever, two arcuate eled ments pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said first-mentioned guiding surfaces, means carried by the lever and engaging the further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member, and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said firstrnentioned guiding surfaces, a roller revolvably carried by the lever to run in succession over further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member, and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, "a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said firstmentioned guiding surfaces, the lever being provided with an arcuate recess, a roller housed inside said arcuate recess and running over said further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces, coaxial with said first-mentioned guiding surfaces, the lever being provided with arcuate races mating and engageable by the further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, a roller revolvably carried by one of the following parts: the lever and the member, and the other member being provided with arcuate slideways guiding said roller to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adj acent angular areas, and an operative member controlled from a further point on the lever.
  • a lever system comprising a lever, two rollers revolvably carried by said lever, a member provided with two arcuate raceways engaging each the corresponding roller, said raceways meeting at one end and terminating each at its end opposed to said one end with a depression adapted to house the corresponding roller and the center of which registers with the center of the other raceway, the selective movement of the rollers on the corresponding raceways constraining the lever to selectively move in unison with each roller sliding over its guiding surface around the pivot carrying the other roller within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.

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  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Braking Arrangements (AREA)

Description

April 23,1963 o. VOSER 3,086,40
ARRANGEMENT FOR ADJUSTING THE PIVOTAL POINT OF A PART Filed July 24, 1961 '2 Sheets- Sheet 1 April 23, 1963 o. VOSER 3,086,406-
ARRANGEMENT FOR ADJUSTING THE PIVOTAL POINT OF A PART Filed July 24, 1961 2 Sheets-Sheet 2 United States Patent ()fifice 3,086,405 Patented Apr. 23, 1963 3,086,406 ARRANGEMENT FOR ADJUSTING THE PIVOTAL PQINT OF A PART Otto Voser, Vieussieux 52, Geneva, Switzerland Filed July 24, 1961, Ser. No. 135,692 Claims priority, application Switzeriand July 25, 1960 13 Claims. (Cl. 74-518) My invention has for its object an arrangement for adjusting the pivotal point of a lever, or the like part.
According to my invention, a first member is provided with at least two arcuate slopes facing each other, and pivoting elements associated each with one slope, each element being adapted to be shifted over the cooperating slope or, reversely, each slope being adapted to slide over the corresponding element, the center of curvature of each slope being adapted to register with the pivotal axis of the element associated with the opposite slope, while a second member is provided with means for keeping constant the spacing between the pivotal axes of the two elements, the whole arrangement being such that, a constant force being applied to any point of one of the two members, the latter moves with reference to the other member by rotating in succession around the two pivotal axes whereby the force transmitted to another point of the last mentioned member, varies throughout the duration of rotation of the latter.
I have illustrated, by way of example, in the accompanying drawings, a preferred embodiment of my invention, together with various modifications thereof. In said drawings:
FIG. 1 is a transverse sectional view of my improved arrangement as incorporated with a pedal.
FIGS. 2 and 3 are views similar to FIG. 1, showing the operation of such an arrangement.
FIG. 4 is a sectional view through line lVIV of FIG. 5 of a bicycle brake incorporating my improved arrangement.
FIG. 5 is a sectional view through line VV of FIG. 4.
FIG. 6 illustrates a modification of FIGS. 4 and 5 wherein the roller forming a cam-follower is replaced by a mere slideway.
FIGS. 7, 8 and 9 show further modifications of the camming means defining the shifting of operation between one center of curvature and another.
FIG. 10 illustrates a still further modification of the camming means. 1
The arrangement according to FIGS. 1 and 2 includes a member or casing 12 along opposite sloping sides of the inner surface of which are slidingly carried two elements 15 and 16 which are pivotally connected to a lever 10. Said casing is in the shape of a heart and is provided inwardly with two sloping surfaces 13 and 14 meeting each other at one end, and the radius of curvature of which has a center registering with the pivotal center of the element sliding over the opposite sloping surface. The end of the casing opposed to the meeting between the sloping surface is provided with two stops 17 and 18.
The elements 15 and 16, the extent of travel of which is limited, on the one hand, by the stops 1'7 and 18 and, on the other hand, by the impact between their abutment surfaces 19 and 2d, are pivotally secured to the lever member 10 through the agency of two points 21 and 22 respectively.
The lever 10, of which one end carries the spaced pivots 21 and 22 for the slider elements 15 and 16 is provided at its outer end with a flaring section 11 adapted to form a pedal for the operators foot. A spring 23 urges the pedal back into its starting position.
When the slider element 16 moves out of the position shown as occupied in FIG. 1 to that shown in FIG. 2 (operative stage I), the lever 10 rocks round the pivot 21 and describes the angle or. When the slider element 15 moves between the positions defined in FIGS. 2 and 3 (stage II) the arm pivots round the pivot 22 and describes the angle 5 beyond the angle a. This double pivotal shifting is controlled through operation of the pedal 11 against the return spring 23 and, conversely, it is controlled in the opposite direction by the action of said spring 23.
If the force F applied on the pedal 11 is held constant throughout the rotation of the lever, the resultant force R applied at the point 24 of the latter has a tendency to increase as the lever 10 moves from its starting position (FIG. 1) into its final position illustrated in FIG. 3. During said rotation, as a matter of fact, the lever arm defining the value of the force R decreases and the operative pivotal center of the lever originally at 21 is shifted to the point 22.
In a second embodiment, the arrangement may be applied to a bicycle brake, so as to allow an instantaneous and protracted braking without any breaking of a cable or any straining of the cyclists hand.
Said brake illustrated in FIGS. 4 to 6 includes two jaws 4 and 5, pivotally secured together at 6 and between which is positioned an intermediate member 3. A brake cable which is not illustrated slidingly engages the jaw '4 at 40 and it is secured at 30 to the member 3, so as to act on the latter with a force P which urges it towards the jaw 4.
The member 3 in the general shape of a lever, is provided along its inner surface with two ridges or ribs 33 and 34 forming slopes 35 and 36 over which the sliders 31 and 32 are adapted to move. Said sliders of a semicircular shape, are held fast between the said slopes and recesses 42 and 43 formed in a projecting section of the jaw 4. Said sliders may rock in said recesses round their axes A and B respectively.
The lateral centering of the member 3 with reference to the jaw 4 is obtained, on the one hand, by reducing the curvature of the inner slope sections 35 and 36 and by inserting an abutment roller 37. The latter is secured to the member 3 at 30 and is adapted to move over the lateral arcuate surfaces 45 and 46 of a cam 44 rigid with the jaw '4. The center of curvature of the surface 46 is at A and of the surface 45 at B.
The jaws 54 and 36 are provided at their upper end i with a spur-shaped extension in which is formed an opening 51 slidably carrying a threaded rod 52. Said extension 5% is adapted to be subjected to a stress R exerted by the member 3 and which varies when the force F transmitted to said member at 30 remains constant.
The stress R is transmitted by the projection 38 of the lever 3 to the head 54 of the rod 52. A part spherical nut.53 screwed over the rod 52 and engaging the extension 52 allows transmitting said stress whatever may be the relative position of the member 3 with reference to the jaw 5.
At the beginning of the braking, the lever 3 is in its raised position; the roller 37 engages the upper end of the surface 46 of the cam 44. The pivotal center of the lever member 3 lies then at A. The lever arm defining the stress R is equal to the shortest distance separating the point A from the axis of the rod 52.
At the end of the braking operation, said lever 3 lies in its lowest position and the roller 37 engages the lower end of the surface 45 of the cam '44. The pivotal center of the lever 3 is now at B. The torque with reference to the point B produced by the constant force F is substantially identical to that with reference to A in the preceding stage. In contradistinction, the point B being much nearer the axis of the rod 52 than the point A, the stress R is now much larger than at the beginning of the braking operation. It is thus apparent that the tractional effort exerted on point 36 of member 3 with reference to the jaw 4 urges the roller 37 over the successive cam surfaces 46 and 45 on the jaw 4 while the engagement of the projection 38 on said member 3 with the head 54 rigid with the jaw 5 urges the latter into relative movement with reference to the jaw 4; this leads to a movement of the outer free ends of the jaws 4 and 5 towards each other so as to clamp between said ends a bicycle wheel rim for instance, which is thus efiiciently braked by the cable extending between 40 and 30 on parts 4 and 3.
According to a modification illustrated in FIG. 6, the roller 37 may be replaced by suitable slideways 310 and 311 cut in the member 3 and over which the cam surfaces 45 and 46 rigid with the projection 4d of the jaw 4 are adapted to move.
It is also possible according to a further modification illustrated in FIG. 7, to replace the camming surfaces by a roller 7, which latter is inserted between the member 3 and the projection 47 rigid with the jaw 4 and revolvably carrying said roller 7.
In a still further modification illustrated in FIGS. 8 and 9, the slopes on which the sliders slide, may, in contradistinction with the preceding embodiments, be provided on the inner member and the slider elements themselves may be held fast partly inside recesses formed along the pe-' riphery of the outer member. Said slider elements may be constituted, as precedingly, by elements adapted to slide each over the corresponding slope (FIG. 8) or, in contradistinction, by rollers rolling over the latter (FIG. 9). The abutment roller preventing the transverse movement of the inner member is, in this modification, housed inside the outer member, as illustrated in FIGS. 8 and 9. Of course, the radii of curvature of the slopes on which the slider elements slide or roll register as precedingly with the pivotal axes of the slider elements.
In yet another modification (FIG. 10), the arrangement includes a first member which is not illustrated, provided with two axes 8 and 9, carrying the rollers 80 and 90. The latter may move inside a second member 10% fitted over the former and provided with a recess, of which two walls, 101 and 102, form the raceways for the rollers 80 and 90. Said raceways, of which the radii of curvature have their centers on the axes 8 and 9 of the two rollers meet at one end and terminate at the other end with a depression 103. Each depression is adapted to lock in position one of the rollers at the center of curvature of the opposite slope while the other roller moves over the said opposite slope.
Obviously, my invention is by no means limited to what has been described or illustrated in the accompanying drawings. In particular, it is possible to reverse the parts played by the different members so as to make the first member rock, while holding the second member stationary, or else, it is possible to make the second member rock and to hold the first member fast. As a matter of fact, the sliders are adapted to slide over their slopes or reversely, the slopes may slide over their sliders.
The applications of my improved arrangement are obviously not limited to a foot-controlled brake or to a bicycle brake and its applications are manifold, in particular whenever it is desired to modify the point of pivoting of a lever with a view to increasing its efficiency.
What I claim is:
l. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
2. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces mating and slidingly engaging each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
3. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, and bounded between a half circle and an arcuate line extending between the ends of said half circle and passing through the center of said half circle, a member provided with two arcuate surfaces matching each one of said arcuate lines and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate bounding line, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
4. A lever system comprising a lever, two rollers revolvably secured at points on said lever, a member provided with two arcuate surfaces serving as raceways for the rollers and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an opera-tive member controlled from a further point on the lever.
5. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, abutments rigid with said member and limiting the travel of the arcuate elements over the cooperating arcuate surfaces to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
6. A lever system comprising a lever, two arcuate elements, spindles carrying said rollers and rigidly secured at points on said lever, a member provided with two arcuate surfaces serving as raceways for the rollers and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
7. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, means constraining the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, an operative member controlled from a further point on the lever and cooperating interengaging means on the lever and on the member and adapted to prevent relative transverse movement between the latter.
8. A lever system comprising a lever, two arcuate eled ments pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said first-mentioned guiding surfaces, means carried by the lever and engaging the further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member, and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
9. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said firstrnentioned guiding surfaces, a roller revolvably carried by the lever to run in succession over further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member, and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
10. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, "a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces coaxial with said firstmentioned guiding surfaces, the lever being provided with an arcuate recess, a roller housed inside said arcuate recess and running over said further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
11. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, said member being provided with still further arcuate surfaces, coaxial with said first-mentioned guiding surfaces, the lever being provided with arcuate races mating and engageable by the further arcuate surfaces on said member to prevent relative transverse movement between the lever and said member and to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
12. A lever system comprising a lever, two arcuate elements pivotally secured at points on said lever, a member provided with two arcuate surfaces guiding each one of said arcuate elements and the center of each of which lies on the path of the pivot carrying the element guided along the other arcuate surface, a roller revolvably carried by one of the following parts: the lever and the member, and the other member being provided with arcuate slideways guiding said roller to constrain the lever to selectively move in unison with each element sliding over its guiding surface around the pivot carrying the other element within each of two predetermined adj acent angular areas, and an operative member controlled from a further point on the lever.
13. A lever system comprising a lever, two rollers revolvably carried by said lever, a member provided with two arcuate raceways engaging each the corresponding roller, said raceways meeting at one end and terminating each at its end opposed to said one end with a depression adapted to house the corresponding roller and the center of which registers with the center of the other raceway, the selective movement of the rollers on the corresponding raceways constraining the lever to selectively move in unison with each roller sliding over its guiding surface around the pivot carrying the other roller within each of two predetermined adjacent angular areas, and an operative member controlled from a further point on the lever.
References Cited in the file of this patent UNITED STATES PATENTS

Claims (1)

1. A LEVER SYSTEM COMPRISING A LEVER, TWO ARCUATE ELEMENTS PIVOTALLY SECURED AT POINTS ON SAID LEVER, A MEMBER PROVIDED WITH TWO ARCUATE SURFACES GUIDING EACH ONE OF SAID ARCUATE ELEMENTS AND THE CENTER OF EACH OF WHICH LIES ON THE PATH OF THE PIVOT CARRYING THE ELEMENT GUIDED ALONG THE OTHER ARCUATE SURFACE, MEANS CONSTRAINING THE LEVER TO SELECTIVELY MOVE IN UNISON WITH EACH ELEMENT SLIDING OVER ITS GUIDING SURFACE AROUND THE PIVOT CARRYING THE OTHER ELEMENT WITHIN EACH OF TWO PREDETERMINED ADJA-
US135692A 1960-07-25 1961-07-24 Arrangement for adjusting the pivotal point of a part Expired - Lifetime US3086406A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3391581A (en) * 1966-09-14 1968-07-09 Teletype Corp Force applying device
US3541881A (en) * 1968-11-18 1970-11-24 Ford Motor Co Adjustable pedal
US3897695A (en) * 1974-02-06 1975-08-05 Lockheed Aircraft Corp Linkage system, particularly for aircraft control
US4779480A (en) * 1986-07-02 1988-10-25 Ford Motor Company Multi ratio accelerator cable mechanism
US5187876A (en) * 1989-08-04 1993-02-23 Hatheway Alson E Precision motion transducer
US6390218B1 (en) * 1999-06-23 2002-05-21 Suzuki Motor Corporation Brake pedal unit for a saddle riding type vehicle
US6520045B2 (en) * 2000-04-04 2003-02-18 Toyoda Iron Works Co., Ltd. Vehicle pedal device assembly including two pedals whose non-operated positions are adjustable in vehicle longitudinal direction

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2184294A (en) * 1938-03-11 1939-12-26 Houdaille Hershey Corp Variable ratio brake lever
US2977817A (en) * 1958-07-03 1961-04-04 Gen Motors Corp Variable ratio lever mechanism

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2184294A (en) * 1938-03-11 1939-12-26 Houdaille Hershey Corp Variable ratio brake lever
US2977817A (en) * 1958-07-03 1961-04-04 Gen Motors Corp Variable ratio lever mechanism

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3391581A (en) * 1966-09-14 1968-07-09 Teletype Corp Force applying device
US3541881A (en) * 1968-11-18 1970-11-24 Ford Motor Co Adjustable pedal
US3897695A (en) * 1974-02-06 1975-08-05 Lockheed Aircraft Corp Linkage system, particularly for aircraft control
US4779480A (en) * 1986-07-02 1988-10-25 Ford Motor Company Multi ratio accelerator cable mechanism
US5187876A (en) * 1989-08-04 1993-02-23 Hatheway Alson E Precision motion transducer
US6390218B1 (en) * 1999-06-23 2002-05-21 Suzuki Motor Corporation Brake pedal unit for a saddle riding type vehicle
US6520045B2 (en) * 2000-04-04 2003-02-18 Toyoda Iron Works Co., Ltd. Vehicle pedal device assembly including two pedals whose non-operated positions are adjustable in vehicle longitudinal direction

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