Abstract
This paper presents the design and testing of a novel flexure-based compliant compound constant-force mechanism (CCFM). One uniqueness of the proposed mechanism lies in that it achieves both constant-force input and constant-force output, which is enabled by integrating two types of sub-mechanisms termed active and passive constant-force structures, respectively. Unlike conventional structures, the active constant-force structure allows the reduction on input force requirement and thus the enlargement of motion stroke provided that the maximum stress of the material is within allowable value. While the passive one offers a safe environmental interaction during the contact process. Analytical model of the proposed CCFM is derived which is verified by simulation study with finite element analysis (FEA). A prototype mechanism is fabricated by a 3D printer to demonstrate the performance of the proposed CCFM design. Experimental results reveal the effectiveness of the reported CCFM.
Highlights
Compliant mechanism exhibits the advantages of no backlash, no wear, and no friction [1,2,3,4]
Both passive constant-force mechanism (PCFM) and active constant-force mechanism (ACFM) will work at the same time
The data of ACFM can be obtained by numerical calculation from those of PCFM and compound constant-force mechanism (CCFM)
Summary
Compliant mechanism exhibits the advantages of no backlash, no wear, and no friction [1,2,3,4]. In the constant-force motion range, the compliant CFM exhibits zero value of total stiffness. To obtain this property, various approaches have been explored. It is desirable to realize both constant-force input and constant-force output at the same time, so as to achieve both a larger motion stroke and a safer environmental interaction [33] No such design has been reported in the literature. In comparison with the previous work [34] which introduces an active constant-force mechanism with constant-force input (for generating a larger motion stroke than conventional mechanism), the proposed CCFM exhibits the feature of both active and passive types of constant-force structures.
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