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In the study of mechanisms, a four-bar linkage, also called a four-bar, is the simplest closed- chain movable
linkage Linkage may refer to: * ''Linkage'' (album), by J-pop singer Mami Kawada, released in 2010 *Linkage (graph theory), the maximum min-degree of any of its subgraphs *Linkage (horse), an American Thoroughbred racehorse * Linkage (hierarchical cluster ...
. It consists of four
bodies Bodies may refer to: * The plural of body * ''Bodies'' (2004 TV series), BBC television programme * Bodies (upcoming TV series), an upcoming British crime thriller limited series * "Bodies" (''Law & Order''), 2003 episode of ''Law & Order'' * ...
, called ''bars'' or ''links'', connected in a loop by four
joint A joint or articulation (or articular surface) is the connection made between bones, ossicles, or other hard structures in the body which link an animal's skeletal system into a functional whole.Saladin, Ken. Anatomy & Physiology. 7th ed. McGraw ...
s. Generally, the joints are configured so the links move in parallel planes, and the assembly is called a ''planar four-bar linkage''. Spherical and spatial four-bar linkages also exist and are used in practice.


Planar four-bar linkage

Planar four-bar linkages are constructed from four links connected in a loop by four one- degree-of-freedom joints. A joint may be either a
revolute joint A revolute joint (also called pin joint or hinge joint) is a one- degree-of-freedom kinematic pair used frequently in mechanisms and machines. The joint constrains the motion of two bodies to pure rotation along a common axis. The joint does ...
– also known as a pin joint or hinged joint – denoted by R, or a
prismatic joint A prismatic joint is a one- degree-of-freedom kinematic pair which constrains the motion of two bodies to sliding along a common axis, without rotation; for this reason it is often called a slider (as in the slider-crank linkage) or a sliding ...
– also known as a sliding pair – denoted by P. A link that are fixed in place relative to the viewer is called a ''ground link.''
A link connecting to the ground by a revolute joint that can perform a complete revolution is called a '' crank link.''
A link connecting to the ground by a revolute joint that cannot perform a complete revolution is called a ''rocker link.''
A link connecting to a ground line by a prismatic joint is called a slider. Sliders are sometimes considered to be cranks that have a hinged pivot at an infinitely long distance away perpendicular to the travel of the slider.
A link connecting to two other links is called a ''floating link'' or ''coupler.'' A coupler connecting a crank and a slider in a single slider crank mechanism is often called a ''
connecting rod A connecting rod, also called a 'con rod', is the part of a piston engine which connects the piston to the crankshaft. Together with the crank, the connecting rod converts the reciprocating motion of the piston into the rotation of the cranksh ...
,'' however, it has also been used to refer to any type of coupler. There are three basic types of planar four-bar linkage, depending on the use of revolute or prismatic joints: # Four revolute joints:
It is denoted as RRRR, constructed from four links connected by four revolute joints. The planar quadrilateral linkage refers to all arrangements in this type.
Examples of 4R linkages include: #* Double-crank linkage #* Crank-rocker (Treadle) linkage (used in pumpjacks) #* Double-rocker linkage (used in
Ackermann steering The Ackermann steering geometry is a geometric arrangement of linkages in the steering of a automobile, car or other vehicle designed to solve the problem of wheels on the inside and outside of a turn needing to trace out circles of different rad ...
) #* Parallelogram (Parallel Motion) and Antiparallelogram (Contraparallelogram, Inverse Parallelogram, Butterfly, Bow-tie) linkages #* Deltoid (Galloway) and Trapezium (Arglin) linkages # Three revolute joints:
It is denoted as RRRP, PRRR, RPRR, or RRPR, constructed from four links connected by three revolute joints and one prismatic joint. The slider-crank linkage (RRRP) is one type of arrangement such that one link is a crank, which is then connected to a slider by a connecting rod. The ''inverted slider-crank'' is another type of arrangement such that there are two cranks with a slider acting as the coupler.
Examples of 3R1P linkages include: #* Single-slider crank mechanism (used in
internal combustion engines An internal combustion engine (ICE or IC engine) is a heat engine in which the combustion of a fuel occurs with an oxidizer (usually air) in a combustion chamber that is an integral part of the working fluid flow circuit. In an internal combus ...
) #* Whitworth Quick Return mechanism (used in early types of shapers) #* Crank and slotted lever Quick Return mechanism (used in shapers) #* Fixed piston mechanism (used in hand pumps) # Two revolute joints and two prismatic joints:
It is denoted as PRRP, and is constructed by connected two sliders with a coupler link. The doubler slider refers to all arrangements in this type.
Examples of 2R2P linkages include: #*
Trammel of Archimedes A trammel of Archimedes is a mechanism that generates the shape of an ellipse. () It consists of two shuttles which are confined ("trammeled") to perpendicular channels or rails and a rod which is attached to the shuttles by pivots at fixed posi ...
(Elliptical trammel) #*
Scotch yoke The Scotch Yoke (also known as slotted link mechanism) is a reciprocating motion mechanism, converting the linear motion of a slider into rotational motion, or vice versa. The piston or other reciprocating part is directly coupled to a sliding ...
(slotted link) mechanism (used in valve actuators) #* Oldham's coupling Planar four-bar linkages can be designed to guide a wide variety of movements, and are often the base mechanisms found in many
machines A machine is a physical system using power to apply forces and control movement to perform an action. The term is commonly applied to artificial devices, such as those employing engines or motors, but also to natural biological macromolecule ...
. Because of this, the
kinematics Kinematics is a subfield of physics, developed in classical mechanics, that describes the Motion (physics), motion of points, Physical object, bodies (objects), and systems of bodies (groups of objects) without considering the forces that cause ...
and dynamics of planar four-bar linkages are also important topics in
mechanical engineering Mechanical engineering is the study of physical machines that may involve force and movement. It is an engineering branch that combines engineering physics and mathematics principles with materials science, to design, analyze, manufacture, and ...
.


Planar quadrilateral linkage

Planar quadrilateral linkage, RRRR or 4R linkages have four rotating joints. One link of the chain is usually fixed, and is called the ''ground link'', ''fixed link'', or the ''frame''. The two links connected to the frame are called the ''grounded links'' and are generally the input and output links of the system, sometimes called the ''input link'' and ''output link''. The last link is the ''floating link'', which is also called a ''coupler'' or ''connecting rod'' because it connects an input to the output. Assuming the frame is horizontal there are four possibilities for the input and output links: *A crank: can rotate a full 360 degrees *A rocker: can rotate through a limited range of angles which does not include 0° or 180° *A 0-rocker: can rotate through a limited range of angles which includes 0° but not 180° *A π-rocker: can rotate through a limited range of angles which includes 180° but not 0° Some authors do not distinguish between the types of rocker.


Grashof condition

The Grashof condition for a four-bar linkage states: ''If the sum of the shortest and longest link of a planar quadrilateral linkage is less than or equal to the sum of the remaining two links, then the shortest link can rotate fully with respect to a neighboring link.'' In other words, the condition is satisfied if ''S'' + ''L'' ≤ ''P'' + ''Q'', where ''S'' is the shortest link, ''L'' is the longest, and ''P'' and ''Q'' are the other links.


Classification

The movement of a quadrilateral linkage can be classified into eight cases based on the dimensions of its four links. Let a, b, g and h denote the lengths of the input crank, the output crank, the ground link and floating link, respectively. Then, we can construct the three terms: :T_1 = g + h - a - b; :T_2 = b + g - a - h; :T_3 = b + h - a - g. The movement of a quadrilateral linkage can be classified into eight types based on the positive and negative values for these three terms, T1, T2, and T3. The cases of T1 = 0, T2 = 0, and T3 = 0 are interesting because the linkages fold. If we distinguish folding quadrilateral linkage, then there ar
27 different cases
The figure shows examples of the various cases for a planar quadrilateral linkage. The configuration of a quadrilateral linkage may be classified into three types: convex, concave, and crossing. In the convex and concave cases no two links cross over each other. In the crossing linkage two links cross over each other. In the convex case all four internal angles are less than 180 degrees, and in the concave configuration one internal angle is greater than 180 degrees. There exists a simple geometrical relationship between the lengths of the two diagonals of the quadrilateral. For convex and crossing linkages, the length of one diagonal increases if and only if the other decreases. On the other hand, for nonconvex non-crossing linkages, the opposite is the case; one diagonal increases if and only if the other also increases.


Design of four-bar mechanisms

The synthesis, or design, of four-bar
mechanism Mechanism may refer to: * Mechanism (engineering), rigid bodies connected by joints in order to accomplish a desired force and/or motion transmission *Mechanism (biology), explaining how a feature is created *Mechanism (philosophy), a theory that ...
s is important when aiming to produce a desired output motion for a specific input motion. In order to minimize cost and maximize efficiency, a designer will choose the simplest mechanism possible to accomplish the desired motion. When selecting a mechanism type to be designed, link lengths must be determined by a process called dimensional synthesis. Dimensional synthesis involves an ''iterate-and-analyze'' methodology which in certain circumstances can be an inefficient process; however, in unique scenarios, exact and detailed procedures to design an accurate mechanism may not exist.


Time ratio

The time ratio (''Q'') of a four-bar mechanism is a measure of its quick return and is defined as follows: :Q = \frac \ge 1 With four-bar mechanisms there are two
stroke A stroke is a medical condition in which poor blood flow to the brain causes cell death. There are two main types of stroke: ischemic, due to lack of blood flow, and hemorrhagic, due to bleeding. Both cause parts of the brain to stop functionin ...
s, the forward and return, which when added together create a cycle. Each stroke may be identical or have different average speeds. The time ratio numerically defines how fast the forward stroke is compared to the quicker return stroke. The total cycle time () for a mechanism is: :\Delta t_\text = \text + \text Most four-bar mechanisms are driven by a rotational actuator, or crank, that requires a specific constant speed. This required speed (''ω''crank)is related to the cycle time as follows: :\omega_\text = (\Delta t_\text)^ Some mechanisms that produce reciprocating, or repeating, motion are designed to produce symmetrical motion. That is, the forward stroke of the machine moves at the same pace as the return stroke. These mechanisms, which are often referred to as ''in-line'' design, usually do work in both directions, as they exert the same force in both directions. Examples of symmetrical motion mechanisms include: *Windshield wipers *Engine mechanisms or pistons *Automobile window crank Other applications require that the mechanism-to-be-designed has a faster average speed in one direction than the other. This category of mechanism is most desired for design when work is only required to operate in one direction. The speed at which this one stroke operates is also very important in certain machine applications. In general, the return and work-non-intensive stroke should be accomplished as fast as possible. This is so the majority of time in each cycle is allotted for the work-intensive stroke. These ''quick-return'' mechanisms are often referred to as ''offset''. Examples of offset mechanisms include: *Cutting machines *Package-moving devices With offset mechanisms, it is very important to understand how and to what degree the offset affects the time ratio. To relate the geometry of a specific linkage to the timing of the stroke, an imbalance angle (''β'') is used. This angle is related to the time ratio, ''Q'', as follows: :Q = \frac Through simple algebraic rearrangement, this equation can be rewritten to solve for ''β'': :\beta = 180^\circ \times \frac


Timing charts

Timing charts are often used to synchronize the
motion In physics, motion is the phenomenon in which an object changes its position with respect to time. Motion is mathematically described in terms of displacement, distance, velocity, acceleration, speed and frame of reference to an observer and mea ...
between two or more mechanisms. They graphically display information showing where and when each mechanism is stationary or performing its forward and return strokes. Timing charts allow designers to qualitatively describe the required
kinematic Kinematics is a subfield of physics, developed in classical mechanics, that describes the motion of points, bodies (objects), and systems of bodies (groups of objects) without considering the forces that cause them to move. Kinematics, as a fiel ...
behavior of a mechanism. These charts are also used to estimate the velocities and accelerations of certain four-bar links. ''The velocity of a link is the time rate at which its position is changing, while the link's acceleration is the time rate at which its velocity is changing.'' Both velocity and acceleration are
vector Vector most often refers to: *Euclidean vector, a quantity with a magnitude and a direction *Vector (epidemiology), an agent that carries and transmits an infectious pathogen into another living organism Vector may also refer to: Mathematic ...
quantities, in that they have both
magnitude Magnitude may refer to: Mathematics *Euclidean vector, a quantity defined by both its magnitude and its direction *Magnitude (mathematics), the relative size of an object *Norm (mathematics), a term for the size or length of a vector *Order of ...
and direction; however, only their magnitudes are used in timing charts. When used with two mechanisms, timing charts assume constant acceleration. This assumption produces
polynomial equations In mathematics, an algebraic equation or polynomial equation is an equation of the form :P = 0 where ''P'' is a polynomial with coefficients in some field, often the field of the rational numbers. For many authors, the term ''algebraic equation'' ...
for velocity as a function of time. Constant acceleration allows for the velocity vs. time graph to appear as straight lines, thus designating a relationship between
displacement Displacement may refer to: Physical sciences Mathematics and Physics * Displacement (geometry), is the difference between the final and initial position of a point trajectory (for instance, the center of mass of a moving object). The actual path ...
(''ΔR''), maximum velocity (''vpeak''), acceleration (''a''), and time(''Δt''). The following equations show this. : : Given the displacement and time, both the maximum velocity and acceleration of each mechanism in a given pair can be calculated.


Slider-crank linkage

A slider-crank linkage is a four-bar linkage with three revolute joints and one prismatic, or sliding, joint. The rotation of the crank drives the linear movement the slider, or the expansion of gases against a sliding
piston A piston is a component of reciprocating engines, reciprocating pumps, gas compressors, hydraulic cylinders and pneumatic cylinders, among other similar mechanisms. It is the moving component that is contained by a cylinder and is made gas-tig ...
in a cylinder can drive the rotation of the crank. There are two types of slider-cranks: in-line and offset. ; In-line: An in-line slider-crank has its slider positioned so the line of travel of the hinged joint of the slider passes through the base joint of the crank. This creates a symmetric slider movement back and forth as the crank rotates. ; Offset: If the line of travel of the hinged joint of the slider does not pass through the base pivot of the crank, the slider movement is not symmetric. It moves faster in one direction than the other. This is called a ''quick-return mechanism''.


Spherical and spatial four-bar linkages

If the linkage has four hinged joints with axes angled to intersect in a single point, then the links move on concentric spheres and the assembly is called a ''spherical four-bar linkage''. The input-output equations of a spherical four-bar linkage can be applied to spatial four-bar linkages when the variables are replaced by
dual number In algebra, the dual numbers are a hypercomplex number system first introduced in the 19th century. They are expressions of the form , where and are real numbers, and is a symbol taken to satisfy \varepsilon^2 = 0 with \varepsilon\neq 0. Du ...
s. '' Bennett's linkage'' is a spatial four-bar linkage with hinged joints that have their axes angled in a particular way that makes the system movable.Hunt, K. H., Kinematic Geometry of Mechanisms, Oxford Engineering Science Series, 1979J. M. McCarthy and G. S. Soh, Geometric Design of Linkages, 2nd Edition, Springer, 2010
/ref> File:Universal joint.gif, Universal joint. File:Tractor Bump Steer.GIF, Tractor steering File:Bennett four-bar linkage.jpg, Bennett four-bar linkage.


Examples


Other Linkages and Mechanisms

*
Chebyshev linkage In kinematics, Chebyshev's linkage is a four-bar linkage that converts rotational motion to approximate linear motion. It was invented by the 19th-century mathematician Pafnuty Chebyshev, who studied theoretical problems in kinematic mechanis ...
* Chebyshev lambda linkage * Evans "Grasshopper" linkage * Hoecken linkage * Horse-head linkage *
Pantograph A pantograph (, from their original use for copying writing) is a mechanical linkage connected in a manner based on parallelograms so that the movement of one pen, in tracing an image, produces identical movements in a second pen. If a line dr ...
* Roberts linkage *
Valve gear The valve gear of a steam engine is the mechanism that operates the inlet and exhaust valves to admit steam into the cylinder and allow exhaust steam to escape, respectively, at the correct points in the cycle. It can also serve as a reversing ...
*
Watt's linkage In kinematics, Watt's linkage (also known as the parallel linkage) is a type of mechanical linkage invented by James Watt in which the central moving point of the linkage is constrained to travel on a nearly straight line. It was described in W ...


Applications

*
Bicycle suspension Bicycle suspension is the system, or systems, used to ''suspend'' the rider and bicycle in order to insulate them from the roughness of the terrain. Bicycle suspension is used primarily on mountain bikes, but is also common on hybrid bicycles ...
* Biological linkages *
Double wishbone suspension A double wishbone suspension is an independent suspension design for automobiles using two (occasionally parallel) wishbone-shaped arms to locate the wheel. Each wishbone or arm has two mounting points to the chassis and one joint at the knuckl ...
*
Door closer A door closer is defined as any mechanical device that closes a door in a controlled manner, preventing it from slamming, in general after someone opens it, or after it was automatically opened. The force used to open the door is stored in some ...
* Foldable steps and foldable chairs * Foot operated machines (
grindstone A grindstone, also known as grinding stone, is a sharpening stone used for grinding or sharpening ferrous tools, used since ancient times. Tools are sharpened by the stone's abrasive qualities that remove material from the tool through friction ...
,
lathe A lathe () is a machine tool that rotates a workpiece about an axis of rotation to perform various operations such as cutting, sanding, knurling, drilling, deformation, facing, and turning, with tools that are applied to the workpiece to c ...
,
sewing machine A sewing machine is a machine used to sew fabric and materials together with thread. Sewing machines were invented during the first Industrial Revolution to decrease the amount of manual sewing work performed in clothing companies. Since the inv ...
,
treadle A treadle (from oe, tredan, "to tread") is a mechanism operated with a pedal for converting reciprocating motion into rotating motion. Along with cranks, treadmills, and treadwheels, treadles allow human and animal machine power in the absen ...
, etc.) * Gear shifter *
Glider (furniture) A glider or platform rocker is a type of rocking chair that moves as a swing seat, where the entire frame consists of a seat attached to the base by means of a double-rocker four-bar linkage. The non-parallel suspension arms of the linkage cause t ...
* Oscillating fan *
Pumpjack A pumpjack is the overground drive for a reciprocating piston pump in an oil well. It is used to mechanically lift liquid out of the well if there is not enough bottom hole pressure for the liquid to flow all the way to the surface. The arr ...
* Step-on trash can *
Windshield wiper A windscreen wiper, windshield wiper, wiper blade (American English), or simply wiper, is a device used to remove rain, snow, ice, washer fluid, water, or debris from a vehicle's front window. Almost all motor vehicles, including cars, tru ...
File:Oil well pump jack, NE Colo (7632673158).jpg, Oil well pump-jack. File:Suspension train watt.svg, Train Suspension using
Watt's linkage In kinematics, Watt's linkage (also known as the parallel linkage) is a type of mechanical linkage invented by James Watt in which the central moving point of the linkage is constrained to travel on a nearly straight line. It was described in W ...
. File:Watt's Linkage Rear Suspension.gif, Rear car suspension using Watt's linkage. File:VPK -3927 Volk 02.jpg, Suspension for VPK-3927 Volk family armored vehicles. File:Door closer 20170214.jpg, Door closer mechanism. File:Sewing machine, The Howe Machine Company, Bridgeport CT, c. 1870, cast iron, steel, wood - Bennington Museum - Bennington, VT - DSC08590.JPG, The Howe Machine Co. Sewing machine. File:Grinding machine with a foot drive.jpg, A pedal-driven grindstone. File:Screw cutting treadle lathe (Brown bros 1912).jpg, The Brown Bros screwcutting treadle lathe. File:Ford Design 3-speed OD Transmission w. Hurst Shifter.jpg, Ford 3-speed Overdrive Transmission File:2003 SV650S Gearshift.jpg, Gearshift on a 2003 SV650S motorcycle. File:Chair,foldable,Tamil Nadu444.jpeg, A foldable chair. File:MtbFrameGeometry FSR.png, A diagram of the suspension on a Specialized Stumpjumper FSR mountain bike. File:Steam locomotive work.gif, Animation of a Steam locomotive.


Simulations

Crank-Rocker 4-bar Linkage.gif, Crank-Rocker 4-Bar Linkage:

Cyan link completes a full revolution
Green link rocks back and forth. Double-Crank 4-bar Linkage.gif, Double-Crank 4-Bar Linkage

Cyan link completes a full revolution
Green link completes a full revolution. Double-Rocker 4-bar Linkage.gif, Double-Rocker 4-Bar Linkage:

Yellow link and Green link rock back and forth. Parallel 4-bar Linkage 1.gif, Parallelogram and Antiparallelogram 4-Bar Linkages:

(Demonstration of Point Change Condition in the Middle) Parallel 4-bar Linkage 2.gif, Parallelogram and Antiparallelogram 4-Bar Linkages (Inversions):

(Demonstration of Point Change Condition in the Middle) Deltoid 4-bar Linkage 2.gif, Deltoid/Kite (Galloway) 4-Bar Linkage:

Both inversions shown:
• Crank-Rocker
• Double-Crank Trapezium 4-bar Linkage.gif, Trapezium (Arglin) 4-Bar Linkage:

All four unique inversions shown:
• Crank-Rocker
• Crank-Rocker
• Double-Crank
• Double-Rocker
4-Bar Fixed and Moving Centrodes.gif, Fixed and moving centrodes drawn on a 4-Bar Double-Crank linkage. Four-bar-curve-cognates.gif, Coupler cognates of a 4-Bar Crank-Rocker linkage. Ackerman Steering Linkage.gif, Ackermann steering linkage, which uses a 4-Bar Double-Rocker linkage. Func Geen Log(u).gif, Four-bar linkage for approximating \log(u).


See also

*
Burmester's theory In kinematics, Burmester theory comprises geometric techniques for synthesis of linkages. It was introduced in the late 19th century by Ludwig Burmester (1840–1927). His approach was to compute the geometric constraints of the linkage directl ...
*
Cognate linkage In kinematics, cognate linkages are linkages that ensure the same coupler curve geometry or input-output relationship, while being dimensionally dissimilar. In case of four-bar linkage coupler cognates, the Roberts–Chebyshev Theorem, after ...
* Five-bar linkage *
Kinematic synthesis In mechanical engineering, kinematic synthesis (also known as mechanism synthesis) determines the size and configuration of mechanisms that shape the flow of power through a mechanical system, or machine, to achieve a desired performance. The wo ...
*
Linkage (mechanical) A mechanical linkage is an assembly of systems connected to manage forces and movement. The movement of a body, or link, is studied using geometry so the link is considered to be rigid. The connections between links are modeled as providing i ...
*
Pumpjack A pumpjack is the overground drive for a reciprocating piston pump in an oil well. It is used to mechanically lift liquid out of the well if there is not enough bottom hole pressure for the liquid to flow all the way to the surface. The arr ...
*
Six-bar linkage In mechanics, a six-bar linkage is a mechanism with one degree of freedom that is constructed from six links and seven joints. An example is the Klann linkage used to drive the legs of a walking machine. In general, each joint of a linkage c ...
*
Slider-crank linkage A slider-crank linkage is a four-link mechanism with three revolute joints and one prismatic, or sliding, joint. The rotation of the crank drives the linear movement the slider, or the expansion of gases against a sliding piston in a cylinder ...
*
Spherical trigonometry Spherical trigonometry is the branch of spherical geometry that deals with the metrical relationships between the sides and angles of spherical triangles, traditionally expressed using trigonometric functions. On the sphere, geodesics are gr ...
* Straight line mechanism (Approximate straight lines are primarily four-bar linkages) *
Universal joint A universal joint (also called a universal coupling or U-joint) is a joint or coupling connecting rigid shafts whose axes are inclined to each other. It is commonly used in shafts that transmit rotary motion. It consists of a pair of hinges ...


Notes


References


External links


The four-bar linkages in the collection of Reuleaux models at Cornell University
{{Linkages Linkages (mechanical)