Patents Assigned to Optimized Solutions, LLC
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Publication number: 20230092982Abstract: The invention discloses a novel method for constructing a torsional vibration damper where the spring damper system is aligned axially with the axis of the device, and it is put into compression by axially reducing its width and simultaneously preventing radial expansion. The assembly of the torsional vibration damper occurs in two progressive controlled stages by torquing a set of fasteners, thereby minimizing the shear strain on the elastomer during assembly, enhancing structural robustness, modally stability, and serviceability in the field.Type: ApplicationFiled: September 16, 2022Publication date: March 23, 2023Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor
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Patent number: 10955026Abstract: The disclosed invention is a novel method for constructing an Arcuate Common Vertex Spring Damper System, that can either be used as a single spring for a torsional vibration application or be used in pairs as a Dual Arcuate Common Vertex Spring Dampers System. Both these constructions yield significant improvements over the conventional Common Vertex and Dual Common Vertex seen in prior art, such as promoting a radially tighter packaging envelop, allowing the resulting device to be tuned across a greater torsional frequency range, and improving the modal decoupling response of the resulting device.Type: GrantFiled: March 11, 2020Date of Patent: March 23, 2021Assignee: OPTIMIZED SOLUTIONS, LLCInventor: Suhale Manzoor
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Patent number: 10883563Abstract: The disclosed invention is a novel method for constructing a Torsional Vibration Damper (TVD). The traditional means used to construct the hub of the TVD was to employ a single material. The disclosed invention essentially discretizes the construction of the TVD hub into three regions: nose, spokes, and flange, and simultaneously aligns unique materials and manufacturing methods for each region with the structural loads borne thereby. Consequently, the invention helps in reduces four unwanted characteristics: (1) mass; (2) polar mass moment of inertia; and (3) casting scrap; and (4) cost. Furthermore, because of this construction other enhancements to the axial and angular structural integrity of the TVD can be reaped in certain cases.Type: GrantFiled: October 22, 2018Date of Patent: January 5, 2021Assignee: OPTIMIZED SOLUTIONS, LLCInventor: Suhale Manzoor
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Publication number: 20200300333Abstract: The disclosed invention is a novel method for constructing an Arcuate Common Vertex Spring Damper System, that can either be used as a single spring for a torsional vibration application or be used in pairs as a Dual Arcuate Common Vertex Spring Dampers System. Both these constructions yield significant improvements over the conventional Common Vertex and Dual Common Vertex seen in prior art, such as promoting a radially tighter packaging envelop, allowing the resulting device to be tuned across a greater torsional frequency range, and improving the modal decoupling response of the resulting device.Type: ApplicationFiled: March 11, 2020Publication date: September 24, 2020Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor
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Patent number: 10683909Abstract: The disclosed invention is a novel method for constructing a Torsional Vibration Damper where the device can be radially installed onto a fully assembled vibrating shaft or flange. Furthermore, the device can be adjusted for frequency during its assembly, essentially eliminating the need for multiple parts, and simultaneously eliminating human/machine error from switching parts across vehicular platforms due to their identical visual appearance.Type: GrantFiled: December 3, 2018Date of Patent: June 16, 2020Assignee: OPTIMIZED SOLUTIONS, LLCInventor: Suhale Manzoor
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Patent number: 10612620Abstract: The disclosed invention is a novel method for constructing a Low Stiffness Torsional Spring-Damper that simultaneously yields the following advantages over conventional designs: (1) the elastomer is not mold-bonded to the two metallic extremities; (2) the amount of elastomer is relatively smaller compared to conventionally constructed devices; (3) the device only allows the torsional direction to be spring loaded; (4) there is some damping inherently present in the system; (5) the device does not disintegrate on failure of the elastomeric element; and (6) the device is serviceable in the field without disengaging from the rotating shaft. Such a Low Stiffness Torsional Spring-Damper when used in a Torsional Vibration Isolator or a Torsional Vibration Damper would reduce its cost while improving its structural and modal integrity and enabling its serviceability in the field.Type: GrantFiled: April 8, 2019Date of Patent: April 7, 2020Assignee: OPTIMIZED SOLUTIONS, LLCInventor: Suhale Manzoor
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Publication number: 20190309821Abstract: The disclosed invention is a novel method for constructing a LSTSD that simultaneously yields the following advantages over conventional designs: (1) the elastomer is not mold-bonded to the two metallic extremities; (2) the amount of elastomer is relatively smaller compared to conventionally constructed devices; (3) the device only allows the torsional direction to be spring loaded; (4) there is some damping inherently present in the system; (5) the device does not disintegrate on failure of the elastomeric element; and (6) the device is serviceable in the field without disengaging from the rotating shaft. Such a LSTSD when used in a TVI or a TVA would reduce its cost while improving its structural and modal integrity and enabling its serviceability in the field.Type: ApplicationFiled: April 8, 2019Publication date: October 10, 2019Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor
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Publication number: 20190178335Abstract: The disclosed invention is a novel method for constructing a Torsional Vibration Damper where the device can be radially installed onto a fully assembled vibrating shaft or flange. Furthermore, the device can be adjusted for frequency during its assembly, essentially eliminating the need for multiple parts, and simultaneously eliminating human/machine error from switching parts across vehicular platforms due to their identical visual appearance.Type: ApplicationFiled: December 3, 2018Publication date: June 13, 2019Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor
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Publication number: 20190128370Abstract: The disclosed invention is a novel method for constructing a Torsional Vibration Damper (TVD). The traditional means used to construct the hub of the TVD was to employ a single material. The disclosed invention essentially discretizes the construction of the TVD hub into three regions: nose, spokes, and flange, and simultaneously aligns unique materials and manufacturing methods for each region with the structural loads borne thereby. Consequently, the invention helps in reduces four unwanted characteristics: (1) mass; (2) polar mass moment of inertia; and (3) casting scrap; and (4) cost. Furthermore, because of this construction other enhancements to the axial and angular structural integrity of the TVD can be reaped in certain cases.Type: ApplicationFiled: October 22, 2018Publication date: May 2, 2019Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor
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Publication number: 20190085934Abstract: The disclosed invention is a Torsional Vibration Damper (TVD) that employs the use of two novel features namely the receiving ledge and the guiding ledge that allows it to have the following four advantages over conventional TVDs: (1) a reduced volume of elastomer; (2) a narrower axial thickness; (3) enhanced performance due to increased real-estate for the ring; and (4) an ability to be assembled without elaborate fixturing or bonding; while not compromising its structural and modal stability.Type: ApplicationFiled: September 18, 2018Publication date: March 21, 2019Applicant: Optimized Solutions, LLCInventor: Suhale Manzoor