Saturday, 14 May 2016

Four Bar Chain, Slider Crank and Double Slider Crank Mechanism

Four Bar Chain, Slider Crank and Double Slider Crank Mechanism

KINEMATIC INVERSION
Inversions of mechanism: A mechanism is one in which one of the links of a kinematic chain is fixed. Different mechanisms can be obtained by fixing different links of the same kinematic chain. These are called as inversions of the mechanism. By changing the fixed link, the number of mechanisms which can be obtained is equal to the number of links. Excepting the original mechanism, all other mechanisms will be known as inversions of original mechanism. The inversion of a mechanism does not change the motion of its links relative to each other.
Four bar chain:
Four bar chain
Fig 1.22 Four bar chain
One of the most useful and most common mechanisms is the four-bar linkage. In this mechanism, the link which can make complete rotation is known as crank (link 2). The link which oscillates is known as rocker or lever (link 4). And the link connecting these two is known as coupler (link 3). Link 1 is the frame.

Inversions of four bar chain:
Inversions of four bar chain.
Fig.1.23 Inversions of four bar chain.
Crank-rocker mechanism: In this mechanism, either link 1 or link 3 is fixed. Link 2 (crank) rotates completely and link 4 (rocker) oscillates. It is similar to (a) or (b) of fig.1.23.
Crank-rocker mechanism
Fig.1.24
Drag link mechanism. Here link 2 is fixed and both links 1 and 4 make complete rotation but with different velocities. This is similar to 1.23(c).
Drag link mechanism
Fig.1.25
Double crank mechanism. This is one type of drag link mechanism, where, links 1& 3 are equal and parallel and links 2 & 4 are equal and parallel.
Double crank mechanism
Fig.1.26
Double rocker mechanism. In this mechanism, link 4 is fixed. Link 2 makes complete rotation, whereas links 3 & 4 oscillate (Fig.1.23d)
Slider crank chain: This is a kinematic chain having four links. It has one sliding pair and three turning pairs. Link 2 has rotary motion and is called crank. Link 3 has got combined rotary and reciprocating motion and is called connecting rod. Link 4 has reciprocating motion and is called slider. Link 1 is frame (fixed). This mechanism is used to convert rotary motion to reciprocating and vice versa.
Slider crank chain
Fig1.27
Inversions of slider crank chain: Inversions of slider crank mechanism is obtained by fixing links 2, 3 and 4.
Inversions of slider crank chain:
(a) crank fixed
Inversions of slider crank chain:
(b) connecting rod fixed
Inversions of slider crank chain:
(c) slider fixed
Fig.1.28
Rotary engine – I inversion of slider crank mechanism. (crank fixed)
Rotary engine – I inversion of slider crank mechanism.
Fig.1.29
Whitworth quick return motion mechanism–I inversion of slider crank mechanism.
Whitworth quick return motion mechanism
Fig.1.30
Crank and slotted lever quick return motion mechanism – II inversion of slider crank mechanism (connecting rod fixed).
Crank and slotted lever quick return motion mechanism
Fig.1.31
Oscillating cylinder engine–II inversion of slider crank mechanism (connecting rod fixed).
Oscillating cylinder engine–II inversion of slider crank mechanism
Fig.1.32
Pendulum pump or bull engine–III inversion of slider crank mechanism (slider fixed).
Pendulum pump or bull engine–III inversion of slider crank mechanism
Fig.1.33
Double slider crank chain: It is a kinematic chain consisting of two turning pairs and two sliding pairs.
Scotch –Yoke mechanism.
Turning pairs – 1&2, 2&3; Sliding pairs – 3&4, 4&1.
Scotch –Yoke mechanism.
Fig.1.34: Scotch –Yoke mechanism.
Inversions of double slider crank mechanism:
Elliptical trammel. This is a device which is used for generating an elliptical profile.
Elliptical trammel
Fig.1.35: Elliptical trammel
In fig. 1.35, if AC = p and BC = q, then, x = q.cosθ and y = p.sinθ.
Rearranging,clip_image034.
This is the equation of an ellipse. The path traced by point C is an ellipse, with major axis and minor axis equal to 2p and 2q respectively.
Oldham coupling. This is an inversion of double slider crank mechanism, which is used to connect two parallel shafts, whose axes are offset by a small amount.
Oldham coupling

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