Using Imaginary Links to Graphically Locate the Instant Centers for Some Kinematical Indeterminate Linkages of Ten or Less Links

Lin, Chih-Chih

23 June 2005

Kinematical indeterminate linkages are ones whose complete set of instant centers cannot be obtained graphically by the Kennedy¡¦s theorem. This article aims to graphically obtained the solutions for some of such linkages, using a concept of introducing a imaginary link, while not altering the degree of freedom, called imaginary link method. It is also possible to combine this scheme with Pennock¡¦s method to achieve greater applicability.

instant center

kinematical indeterminacy

graphical method

imaginary link

Compliant pediatric prosthetic knee

Mahler, Sebastian

01 June 2007

We have designed and examined a compliant knee mechanism that may offer solutions to problems that exist for infants and toddlers who are just learning to walk. Pediatric prosthetic knees on the market today are not well designed for infants and toddlers for various reasons. Children at this age need a prosthetic that is light in weight, durable, and stable during stance. Of the eleven knees on the market for children, all but three are polycentric or four-bar knees, meaning they have multiple points of movement. Polycentric knees are popular designs because they offer the added benefit of stable stance control and increased toe clearance, unfortunately this type of knee is often too heavy for young children to wear comfortably and is not well suited for harsh environments such as sand or water, common places children like to play. The remaining three knees do not offer a stance control feature and are equally vulnerable to harsh environments due to ball bearing hinges. Compliant mechanisms offer several design advantages that may make them suitable in pediatric prosthetic knees -- light weight, less susceptible to harsh environments, polycentric capable, low part count, etc. Unfortunately, they present new challenges that must be dealt with individually. For example compliant mechanisms are typically not well suited in applications that need adjustability. This problem was solved by mixing compliant mechanism design with traditional mechanism design methods. This paper presents a preliminary design concept for a compliant pediatric prosthetic knee. The carbon fiber composite spring steel design was first built and then evaluated using Finite Element Analysis. The prototype's instant center was plotted using the graphical method. From our analysis position, force and stress information was gathered for a deflection up to 120 degrees. The instant centers that were plotted indicate that the knee has good potential in offering adequate stability during stance.

Compliant mechanism

Pseudo rigid body model

Instant center

Finite element analysis

4-bar

Functional requirements

Pediatric prosthetic

Prosthetic

Above knee amputation

Transfemoral

American Studies

Arts and Humanities

Development of Deployable Wings for Small Unmanned Aerial Vehicles Using Compliant Mechanisms

Landon, Steven D.

06 July 2007

Unmanned Air Vehicles (UAVs) have recently gained attention due to their increased ability to perform sophisticated missions with less cost and/or risk than their manned counterparts. This thesis develops approaches to the use of compliant mechanisms in the design of deployable wings for small UAVs. Although deployable wings with rigid-link mechanisms have been used in the past to maintain flight endurance while minimizing required storage volume, compliant mechanisms offer many advantages in manufacturability and potential space savings due to function sharing of components. A number of compliant, deployable wing concepts are generated and a classification system for them is formed. The pool of generated concepts serves as a basis for stimulating future concept ideas. A methodology is also proposed for evaluating concepts for a given application. The approach to developing compliant designs for certain applications is illustrated through two example designs, which demonstrate key portions of the proposed design process. Each is modeled and analyzed to demonstrate viability.

Compliant mechanism

deployable wing

UAV

compliance

concept selection

product design process

classification

instant center

centrode

design for manufacturability

4 bar kinematic linkage

MAV

folding

rolling

flexible wing

Mechanical Engineering