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US20230024676A1 - Systems and methods for electric vehicle energy recovery - Google Patents

Systems and methods for electric vehicle energy recovery
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Publication number
US20230024676A1
US20230024676A1US17/382,936US202117382936AUS2023024676A1US 20230024676 A1US20230024676 A1US 20230024676A1US 202117382936 AUS202117382936 AUS 202117382936AUS 2023024676 A1US2023024676 A1US 2023024676A1
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United States
Prior art keywords
valve
shock absorber
piezoelectric material
hydraulic fluid
disposed
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Abandoned
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US17/382,936
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Gonzalo Fuentes Iriarte
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Individual
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Priority to US17/382,936priorityCriticalpatent/US20230024676A1/en
Priority to US17/388,897prioritypatent/US11290032B1/en
Publication of US20230024676A1publicationCriticalpatent/US20230024676A1/en
Abandonedlegal-statusCriticalCurrent

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Abstract

A shock absorber including a shock absorber body substantially filled with a hydraulic fluid. The shock absorber includes a piston disposed within the shock absorber body that includes a piston head movable within the shock absorber to apply a pressure change in the hydraulic fluid. The shock absorber includes a piezoelectric material disposed within the shock absorber and in fluid communication with the hydraulic fluid. The piezoelectric material is configured to generate an electrical charge in response to the pressure change in the hydraulic fluid. The piezoelectric material is electrically connected to at least one battery configured to receive the electrical charge generated by the piezoelectric material.

Description

Claims (20)

The following replaces all prior versions of the claims:
1. A shock absorber comprising:
a shock absorber body substantially filled with a hydraulic fluid, the shock absorber body including a plurality of chambers;
a piston disposed within the shock absorber body, the piston including a piston head that is movable within the shock absorber so as to apply a pressure change in the hydraulic fluid;
at least one valve disposed so as to provide selective fluid communication between at least two of the plurality of chambers, the at least one valve configured to deform in response to the pressure change in the hydraulic fluid; and
a piezoelectric material included in the at least one valve, the piezoelectric material being configured to generate an electrical charge in response to the pressure change in the hydraulic fluid,
wherein the piezoelectric material is electrically connected to at least one battery configured to receive the electrical charge generated by the piezoelectric material.
2. The shock absorber ofclaim 1, wherein the at least one valve is disposed within the shock absorber body.
3. The shock absorber ofclaim 1, wherein the shock absorber body includes a main chamber, and wherein the at least one valve is disposed in the piston so as to provide selective fluid communication between portions of the main chamber.
4. The shock absorber ofclaim 1, wherein the at least one valve includes a valve ring configured to deform in response to the pressure change in the hydraulic fluid, and wherein the valve ring includes the piezoelectric material.
5. The shock absorber ofclaim 4, wherein the piezoelectric material is applied to the valve ring in nanolayers using at least one of Molecular Beam Epitaxi, reactive sputtering, Atomic Layer Deposition, or Chemical Vapor Deposition.
6. The shock absorber ofclaim 1, wherein the hydraulic fluid is electrically conductive, and wherein the electrical charge generated by the piezoelectric material flows to the at least one battery via at least one of the hydraulic fluid or an electrically conductive wire.
7. The shock absorber ofclaim 1 wherein the at least one valve is disposed in the piston head and configured to provide fluid communication between a lower chamber and an upper chamber of the shock absorber body.
8. An energy recovery system for a vehicle, the energy recovery system including:
at least one battery disposed in the vehicle;
one or more shock absorbers disposed in the vehicle, the one or more shock absorbers including:
a plurality of chambers,
hydraulic fluid disposed within the plurality of chambers and configured to undergo pressure changes, and
at least one valve disposed so as to provide selective fluid communication between at least two of the plurality of chambers, the at least one valve configured to deform in response to the pressure changes in the hydraulic fluid;
a piezoelectric material included in the at least one valve, the piezoelectric material configured to generate an electrical charge in response to the pressure changes in the hydraulic fluid; and
an electrical connection between the at least one battery and the piezoelectric material, the electrical connection configured to carry the electrical charge generated by the piezoelectric material to the at least one battery.
9. The energy recovery system ofclaim 8, wherein each of the one or more shock absorbers further comprise a shock absorber body and a piston, and wherein the at least one valve is disposed within the shock absorber body.
10. The energy recovery system ofclaim 8, wherein each of the one or more shock absorbers further comprise:
a main chamber; and
a piston head movably disposed in the main chamber to apply the pressure changes to the hydraulic fluid, wherein the at least one valve is disposed on the piston head so as to provide selective fluid communication between portions of the main chamber.
11. The energy recovery system ofclaim 8, wherein the at least one valve includes a valve ring configured to deform in response to the pressure changes in the hydraulic fluid, and wherein the valve ring includes the piezoelectric material.
12. The energy recovery system ofclaim 11, wherein the piezoelectric material is applied to the valve ring in nanolayers.
13. The energy recovery system ofclaim 8,
wherein the hydraulic fluid is electrically conductive and wherein the electrical charge generated by the piezoelectric material flows to the at least one battery via at least one of the hydraulic fluid or an electrically conductive wire.
14. The energy recovery system ofclaim 8, wherein each of the one or more shock absorbers further comprise a piston head disposed within a main chamber of the plurality of chambers, and wherein the at least one valve is disposed within the piston head and configured to provide fluid communication between a lower chamber and an upper chamber of the main chamber.
15. A vehicle comprising:
a vehicle body;
at least one battery disposed on the vehicle body;
one or more wheel assemblies each including a wheel configured to contact a driving surface;
one or more shock absorbers each including a first end connected to the vehicle body and a second end connected to one of the one or more wheel assemblies and configured to absorb variations in the driving surface, each of the one or more shock absorbers including:
a plurality of chambers including hydraulic fluid configured to undergo pressure changes in response to the variations in the driving surface,
at least one valve disposed so as to provide selective fluid communication between at least two of the plurality of chambers, the at least one valve configured to deform in response to the pressure change in the hydraulic fluid, and
a piezoelectric material included in the at least one valve, the piezoelectric material configured to generate an electrical charge in response to the pressure changes in the hydraulic fluid; and
an electrical connection between the at least one battery and the piezoelectric material, the electrical connection configured to carry the electrical charge generated by the piezoelectric material to the at least one battery.
16. The vehicle ofclaim 15, wherein the one or more shock absorbers each further comprise a shock absorber body and a piston, and wherein the at least one valve is disposed within the shock absorber body.
17. The vehicle ofclaim 15, wherein the one or more shock absorbers each further comprise:
a main chamber;
a piston head movably disposed in the main chamber to apply the pressure changes to the hydraulic fluid, wherein the at least one valve is disposed within the piston head to selective fluid communication between portions of the main chamber.
18. The vehicle ofclaim 15, wherein the at least one valve includes at least one valve ring configured to deform in response to the pressure changes in the hydraulic fluid, and wherein the valve ring includes the piezoelectric material.
19. The vehicle ofclaim 18, wherein the piezoelectric material is applied to the valve ring in nanolayers using at least one of Molecular Beam Epitaxi, reactive sputtering, Atomic Layer Deposition, or Chemical Vapor Deposition.
20. The vehicle ofclaim 15 further comprising at least one interdigital transducer applied to the piezoelectric material.
US17/382,9362021-07-222021-07-22Systems and methods for electric vehicle energy recoveryAbandonedUS20230024676A1 (en)

Priority Applications (2)

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US17/382,936US20230024676A1 (en)2021-07-222021-07-22Systems and methods for electric vehicle energy recovery
US17/388,897US11290032B1 (en)2021-07-222021-07-29Systems and methods for electric vehicle energy recovery

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
US17/382,936US20230024676A1 (en)2021-07-222021-07-22Systems and methods for electric vehicle energy recovery

Related Child Applications (1)

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US17/388,897ContinuationUS11290032B1 (en)2021-07-222021-07-29Systems and methods for electric vehicle energy recovery

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US20230024676A1true US20230024676A1 (en)2023-01-26

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US17/382,936AbandonedUS20230024676A1 (en)2021-07-222021-07-22Systems and methods for electric vehicle energy recovery
US17/388,897ActiveUS11290032B1 (en)2021-07-222021-07-29Systems and methods for electric vehicle energy recovery

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Publication numberPriority datePublication dateAssigneeTitle
DE102021102352A1 (en)*2021-02-022022-08-04Audi Aktiengesellschaft Method for operating at least one electromechanical actuator of a motor vehicle and motor vehicle
US11878659B2 (en)*2022-02-242024-01-23Todd M. SauerWheeled carrier for towing vehicle and method of use
CN118722101B (en)*2024-06-032024-12-31广东新力能源有限公司Shock attenuation kinetic energy recovery system and vehicle

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