On the geometry of the planar 4-bar mechanism

Gibson, C. G.; Newstead, P. E.

doi:10.1007/bf00051348

Cited by 53 publications

(51 citation statements)

References 5 publications

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“…In fact for any coupler point (except the ends of the coupler bar) the complex coupler curve is a projection of the complex residual curve in P C 6 described in section 2 and so has degree six (Gibson and Newstead [5]). The coupler curve has the same geometric genus as the corresponding residual curve, that is to say it is elliptic (genus 1) for generic four-bars (as we have already said) and rational (genus 0) for Grashof four-bars.…”

Section: Diagram Of the Classification Of Four-barsmentioning

confidence: 99%

“…Since there are altogether only three finite double points on such a coupler curve, at most one can be an acnode. The result now follows from equation (5). However no direct method presents itself of ascertaining whether coupler curves exist which exhibit 12 inflections.…”

Section: Arrangement Of Acnodes Near a Centrode Triple Pointmentioning

confidence: 99%

“…Following Darboux, the configuration space of the mechanism can be described in terms of unit vectors (x i , y i ), i = 1, 2, 3 along the corresponding bars (see, for example Gibson and Newstead [5]). The six variables are connected by five equations, expressing the fact that each vector has unit length and that the four-bar forms a closed quadrilateral.…”

Section: §1 Introductionmentioning

confidence: 99%

“…Four-bars for which (2) does not hold shall be called generic. Those that satisfy (2) are classified in [5] according to their singularities or equivalently by the geometry of the quadrilateral formed by the four-bar. The classification can be visualised in terms of the equations (2).…”

Section: §1 Introductionmentioning

confidence: 99%

“…Let E = e 1 + e 4 − e 2 − e 3 denote the sum of the shortest and longest sides minus the lengths of the other two. Then it is a standard fact (again, derived in [5]) that for E < 0 the configuration space is a one-dimensional manifold consisting of two connected components (topologically circles), while if E > 0 the manifold has only one component. An invaluable refinement is the classification of generic four-bars, described by Hain [6], in which they are described by means of the rocking (R)…”

Section: §1 Introductionmentioning

confidence: 99%

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Real inflections of hinged planar four-bar coupler curves

Donelan

Scott

1995

Mechanism and Machine Theory

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Abstract. Plücker's and Klein's equations provide an upper bound on the number of real inflections on the coupler curve of a hinged planar four-bar mechanism. Generally, for any configuration of the four-bar, the coupler points whose trajectories exhibit inflections lie on a circle. The coupler plane is partitioned by the envelope of the inflection circles into connected regions within which every coupler point has the same number of inflections on its trajectory. This enables us to locate coupler curves exhibiting the maximum possible number of inflections. §1 Introduction Four-bar mechanisms provide a rich source of geometrical problems, some of considerable complexity. The problem of finding design parameters for which some coupler curve exhibits particular features dates back at least as far as James Watt. In his case the desire was to find a mechanism with approximate straight-line output and since that time many refinements and improvements have been found for this problem. To a considerable extent, this has depended on locating ordinary and higher inflections on coupler curves, though it must be said that this in itself is not sufficient for good straight-line approximation over a reasonable range of input angles-the approximation may be valid only very close to the inflection.One outstanding problem is to determine the maximum number of (real) inflection points that may be found on a single coupler curve. Here we seek to answer that question for hinged planar four-bar mechanisms (4R mechanisms), hereafter referred to simply is fourbar mechanisms. In theory this is a problem of algebraic geometry. That four-bar coupler curves are algebraic curves of degree six was discovered by Roberts [13]. Regarding them as complex projective curves and using standard results on their singularities, applications of 1991 Mathematics Subject Classification. Primary: 70B15, secondary: 14Q05, 53A17.

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Section: Diagram Of the Classification Of Four-barsmentioning

confidence: 99%

Section: Arrangement Of Acnodes Near a Centrode Triple Pointmentioning

confidence: 99%

Section: §1 Introductionmentioning

confidence: 99%

Section: §1 Introductionmentioning

confidence: 99%

Section: §1 Introductionmentioning

confidence: 99%

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Real inflections of hinged planar four-bar coupler curves

Donelan

Scott

1995

Mechanism and Machine Theory

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Introduction to Mathematica

Trott

2004

The Mathematica GuideBook for Programming

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On the Plane Symmetric Bricard Mechanism

Selig

2020

Advances in Robot Kinematics 2020

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In this paper the motion of the plane symmetric Bricard 6R mechanism is studied. A simple method based on the dimensions of intersecting varieties in the Study quadric is used to show that the mechanism is mobile. The degree of the motion of the third link (the one adjacent to the plane of symmetry) relative to the plane of symmetry is found. The degree and genus of the motion of the third link relative to the first link is also found. This curve in the Study quadric is given as the intersection of the variety generated by the RR dyad formed by second and third joints with the variety of displacements that keep the fourth joint axis in the special linear line complex whose axis is the axis of the first joint. Finally, the motion of the symmetry plane when the second link is fixed is considered. The symmetry planes comprise the common tangent planes to a pair of circularly symmetric hyperboloids.

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On the geometry of the planar 4-bar mechanism

Cited by 53 publications

References 5 publications

Real inflections of hinged planar four-bar coupler curves

Real inflections of hinged planar four-bar coupler curves

Introduction to Mathematica

On the Plane Symmetric Bricard Mechanism

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