Can you explain me how does it work?
Circular into rectilinear motion. The waved-wheel or cam on the upright shaft communicates a rectilinear motion to the upright bar through the oscillating rod.
i've not understood
[ATTACH]2436[/ATTACH]
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Can you explain me how does it work?
Circular into rectilinear motion. The waved-wheel or cam on the upright shaft communicates a rectilinear motion to the upright bar through the oscillating rod.
i've not understood
[ATTACH]2436[/ATTACH]
search: Tilt-a-Whirl
[FONT=Georgia]A slider-crank mechanism is a typical design which converts rotary motion into linear motion. It is achieved by connecting a slider and a crank with a rod. [/FONT]
[B]Design Requirement
[B][I](Refer to Table 1 for variables and values)[/I]
[LIST=1][*]A mechanism is to be driven by an electric motor turning at constant speed and direction. The speed of the motor [B]must be a multiple of 10 rpm[/B].[*]Two motion outputs are required from the mechanism. The motions are all on a single plane. Their descriptions are as follows:
[LIST=1][*]A linear reciprocating motion of a slider along the horizontal axis with a stroke of [B][I]S[/I][/B][B]. [/B]The expected tolerance is ± 0.5 mm.[*]A rocking motion with a throw angle of [B][I]θ[/I][/B] degrees. The expected tolerance is ± 1°. One of the angular position limits of the rocker must be vertical.[/LIST]
[*]To reduce the forces in the joints,[*]The coupler ratio of the sliding mechanism must be made [B]greater than 4[/B].[*]The transmission angle of the rocking mechanism [B]should be between 35° and 145°[/B].[*]The space occupied by the moving parts of the mechanism should be minimized. The coupler ratio of the sliding mechanism should be [B]less than 6.[/B][*]The time ratio of the sliding mechanism must be at least [B]1.07[/B].[*]The highest speed attained by the sliding mechanism must be between [B]VMIN[/B] and [B]VMAX[/B] mm/s.[*]Each project group must use the assigned values [B]S, [/B][I]θ[/I] , [B]VMIN[/B] and [B]VMAX[/B] as shown in [B]TABLE 1[/B][/LIST]
[B]TABLE 1:
The dimensional and motion constraints of the mechanism for each group.
[TABLE="class: cms_table, width: 417, align: center"]
[TR]
[TD][B][I]Group[/I][/B][/TD]
[TD][B][I]Stroke[/I][/B]
[B][I]S[/I][/B][/TD]
[TD][B][I]Throw Angle [/I][/B][B][I]θ[/I][/B][/TD]
[TD="colspan: 2"][B][I]Maximum Slider Speed[/I][/B][/TD]
[/TR]
[TR]
[TD][B]VMIN[/B][/TD]
[TD][B]VMAX[/B][/TD]
[/TR]
[TR]
[TD][B][I]No[/I][/B][/TD]
[TD][B][I]mm[/I][/B][/TD]
[TD][B][I]degree[/I][/B][/TD]
[TD][B][I]mm/s[/I][/B][/TD]
[TD][B][I]mm/s[/I][/B][/TD]
[/TR]
[TR]
[TD]1[/TD]
[TD]170[/TD]
[TD]75[/TD]
[TD]800[/TD]
[TD]1000[/TD]
[/TR]
[TR]
[TD]2[/TD]
[TD]190[/TD]
[TD]85[/TD]
[TD]900[/TD]
[TD]1100[/TD]
[/TR]
[TR]
[TD]3[/TD]
[TD]210[/TD]
[TD]95[/TD]
[TD]1000[/TD]
[TD]1200[/TD]
[/TR]
[/TABLE]
[B]Design Tasks
The output of the design project is in the form of a brief report (50%) and a presentation (50%).
[LIST=1][*][B]REPORT[/B][/LIST]
The report should have the following contents:
[LIST=1][*][B]Introduction[/B][/LIST]
A brief description of the mechanism, the aim of the project and the design requirement (~2 pages)
[LIST=1][*][B]Methodology[/B][/LIST]
The design approach. (~2 pages). Should show and justify how the design parameters were finalized.
[LIST=1][*][B]Results[/B][/LIST]
Sample design calculations (2-3 pages)
[B]Diagrams [I](To be plotted based on calculations performed using MS Excel, not ADAMS)
[LIST=1][*]The kinematic diagram of the mechanism showing the slider at mid-stroke position.[*]The slider displacement curve for 2 cycles.[*]The slider velocity curve for 2 cycles.[*]The slider acceleration curve for 2 cycles.[*]The rocker angular displacement curve for 2 cycles.[*]The rocker angular velocity curve for 2 cycles.[*]The rocker angular acceleration curve for 2 cycles.[/LIST]
[LIST=1][*][B]Conclusion[/B][/LIST]
Design Specifications
[LIST=1][*]The lengths of all links, the slider offset.[*]The strokes of the slider and the rocker.[*]The crankshaft speed in rpm[*]The time ratios of the slider and the rockers.[*]The coupler ratio of the slider.[*]The range of transmission angles of the rocker.[*]The working area required by the mechanism (in terms of L x W).[*]The maximum speed of the slider and the rocker[/LIST]
[/I][/B][/B][/B][/B][/B]