Geometric Calculation of the Influence of an Oscillating Sieve’s Actuation Mechanism Position on Its Motion
This article offers a general approach to studying a four-bar mechanism from a geometric viewpoint. The four-bar mechanism form is used in a large number of existing pieces of machinery and equipment. This type of mechanism, used to drive a screen and generate its oscillating motion, is referred to...
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Published in | Processes Vol. 10; no. 9; p. 1760 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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Abstract | This article offers a general approach to studying a four-bar mechanism from a geometric viewpoint. The four-bar mechanism form is used in a large number of existing pieces of machinery and equipment. This type of mechanism, used to drive a screen and generate its oscillating motion, is referred to in this article for its application in separation systems. In the literature, there are numerous approaches for analyzing such a mechanism. In addition to determining this mechanism’s geometry, an examination of the influence of the drive system’s position on the motion of the tie rods, or the support system of an oscillating site, is also conducted. In the investigation, the connecting rod angle was adjusted between −45 degrees and 60 degrees without respect to the horizontal. The following parameters, which correspond to the operation of the oscillating sieve motion, were obtained from the determined mathematical relations: the movement made by the free end of the tie rod; the tie rod’s angle in relation to the crank movement varies; and variation in the angle the tie rod achieves based on the drive system’s inclination angle. From the analysis, it was discovered that the drive system’s position in relation to the other components of the assembly had a direct influence. The calculation steps were designed to be performed using Mathcad 15. |
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AbstractList | This article offers a general approach to studying a four-bar mechanism from a geometric viewpoint. The four-bar mechanism form is used in a large number of existing pieces of machinery and equipment. This type of mechanism, used to drive a screen and generate its oscillating motion, is referred to in this article for its application in separation systems. In the literature, there are numerous approaches for analyzing such a mechanism. In addition to determining this mechanism’s geometry, an examination of the influence of the drive system’s position on the motion of the tie rods, or the support system of an oscillating site, is also conducted. In the investigation, the connecting rod angle was adjusted between −45 degrees and 60 degrees without respect to the horizontal. The following parameters, which correspond to the operation of the oscillating sieve motion, were obtained from the determined mathematical relations: the movement made by the free end of the tie rod; the tie rod’s angle in relation to the crank movement varies; and variation in the angle the tie rod achieves based on the drive system’s inclination angle. From the analysis, it was discovered that the drive system’s position in relation to the other components of the assembly had a direct influence. The calculation steps were designed to be performed using Mathcad 15. |
Author | Moșneguțu, Emilian Irimia, Oana Chițimuș, Dana Tomozei, Claudia Panainte-Lehăduș, Mirela |
Author_xml | – sequence: 1 givenname: Emilian orcidid: 0000-0003-1457-7022 surname: Moșneguțu fullname: Moșneguțu, Emilian – sequence: 2 givenname: Claudia surname: Tomozei fullname: Tomozei, Claudia – sequence: 3 givenname: Mirela orcidid: 0000-0002-8582-1988 surname: Panainte-Lehăduș fullname: Panainte-Lehăduș, Mirela – sequence: 4 givenname: Dana orcidid: 0000-0003-0930-2411 surname: Chițimuș fullname: Chițimuș, Dana – sequence: 5 givenname: Oana surname: Irimia fullname: Irimia, Oana |
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SubjectTerms | Actuation Algorithms Connecting rods Inclination angle Kinematics Laboratories Mathematical analysis Mathematics Movement Robotics Support systems Values Velocity |
Title | Geometric Calculation of the Influence of an Oscillating Sieve’s Actuation Mechanism Position on Its Motion |
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