Regenerative hydraulic systems and methods of use
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F15B-011/17
E02F-009/22
출원번호
US-0498769
(2010-09-29)
등록번호
US-9194107
(2015-11-24)
국제출원번호
PCT/US2010/050716
(2010-09-29)
§371/§102 date
20120607
(20120607)
국제공개번호
WO2011/041410
(2011-04-07)
발명자
/ 주소
Andruch, III, John
Lumkes, Jr., John H.
출원인 / 주소
Purdue Research Foundation
대리인 / 주소
Hartman Global IP Law
인용정보
피인용 횟수 :
2인용 특허 :
7
초록▼
Hydraulic systems and methods for using such systems in a variety of machinery, including but not limited to machines having multiple functions performed by one or more hydraulic circuits. The systems enable valves and actuators within the systems to reconfigure themselves so that flow from assistiv
Hydraulic systems and methods for using such systems in a variety of machinery, including but not limited to machines having multiple functions performed by one or more hydraulic circuits. The systems enable valves and actuators within the systems to reconfigure themselves so that flow from assistive loads on one or more actuators can be used to move one or more other actuators subjected to a resistive load.
대표청구항▼
1. A hydraulic system comprising: at least first and second hydraulic actuators;multiple sets of hydraulic valves fluidically connected to the first and second hydraulic actuators;at least first and second variable displacement units each having pumping and motoring modes;drive shafts associated wit
1. A hydraulic system comprising: at least first and second hydraulic actuators;multiple sets of hydraulic valves fluidically connected to the first and second hydraulic actuators;at least first and second variable displacement units each having pumping and motoring modes;drive shafts associated with the first and second variable displacement units and interconnected with each other such that the drive shafts are rotatably coupled and cause the first and second variable displacement units to operate in unison;at least one motor connected to the drive shafts of the variable displacement units for rotating the drive shafts;at least one reservoir from which the fluid can be drawn by the first and second variable displacement units when operating in their pumping modes and to which the fluid can be returned by the first and second variable displacement units when operating in their motoring modes;a first conduit system containing at least a first hydraulic valve of each of the sets of hydraulic valves, the first conduit system selectively fluidically connecting the first variable displacement unit to the first and second hydraulic actuators, each of the first hydraulic valves selectively fluidically connecting the first variable displacement unit to one of the first or second hydraulic actuators;a second conduit system containing at least a second hydraulic valve of each of the sets of hydraulic valves, the second conduit system selectively fluidically connecting the first and second hydraulic actuators to the reservoir, each of the second hydraulic valves selectively fluidically connecting one of the first or second hydraulic actuators to the reservoir;a third conduit system containing at least a third hydraulic valve of each of the sets of hydraulic valves, the third conduit system selectively fluidically connecting at least the second variable displacement unit to the first and second hydraulic actuators, each of the third hydraulic valves selectively fluidically connecting the second variable displacement unit to one of the first or second hydraulic actuators, the third conduit system being adapted to transfer the fluid between the first and second hydraulic actuators;first valve means for selectively fluidically isolating the first conduit system from the third conduit system and selectively fluidically connecting the first conduit system to the third conduit system; andsecond valve means for selectively fluidically isolating the second conduit system from the third conduit system and selectively fluidically connecting the second conduit system to the third conduit system;wherein the hydraulic system is operable to: transfer energy when one of the first and second hydraulic actuators is subjected to a resistive load and the other of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid within the other of the first and second hydraulic actuators to the one of the first and second hydraulic actuators through the third conduit system;transfer energy when one of the first and second hydraulic actuators is subjected to a resistive load and the other of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid from the reservoir to the one of the first and second hydraulic actuators through the third conduit system while operating the second variable displacement unit in the pumping mode thereof; andrecover energy when one of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid within the one of the first and second hydraulic actuators to the reservoir through the third conduit system while operating the second variable displacement unit in the motoring mode thereof. 2. The hydraulic system according to claim 1, further comprising at least a third variable displacement unit having pumping and motoring modes, the third variable displacement unit being fluidically connected to the third conduit system and being rotatably coupled to the second variable displacement unit to cause the second and third variable displacement units to operate in unison. 3. The hydraulic system according to claim 2, wherein the third variable displacement unit has a different maximum displacement than the second variable displacement unit. 4. The hydraulic system according to claim 2, wherein the second and third variable displacement units are rotatably coupled to each other through a clutch or transmission. 5. The hydraulic system according to claim 1, wherein the first and second hydraulic actuators are linear or rotary actuators. 6. The hydraulic system according to claim 1, wherein the third conduit system, the multiple sets of hydraulic valves, and the first and second valve means are operable to separate the first and second hydraulic actuators into different load-sensing systems. 7. The hydraulic system according to claim 1, wherein the hydraulic system is installed on machinery comprising a plurality of implements, and the first and second hydraulic actuators are operatively coupled to the implements for moving the implements. 8. A hydraulic system comprising: at least first and second hydraulic actuators, each of the first and second hydraulic actuators having first and second chambers fluidically connected to first and second ports, respectively;at least first and second sets of hydraulic valves fluidically connected to the first hydraulic actuator, the first set of hydraulic valves being fluidically connected to the first port of the first hydraulic actuator, and the second set of hydraulic valves being fluidically connected to the second port of the first hydraulic actuator;at least third and fourth sets of hydraulic valves fluidically connected to the second hydraulic actuator, the third set of hydraulic valves being fluidically connected to the first port of the second hydraulic actuator and the fourth set of hydraulic valves being fluidically connected to the second port of the second hydraulic actuator;a plurality of variable displacement units each having pumping and motoring modes;drive shafts associated with the variable displacement units and interconnected with each other such that the drive shafts are rotatably coupled and cause the variable displacement units to operate in unison;at least one motor connected to the drive shafts of the variable displacement units for rotating the drive shafts;at least one reservoir from which the fluid can be drawn by the variable displacement units when operating in their pumping modes and to which the fluid can be returned by the variable displacement units when operating in their motoring modes;a first conduit system containing at least a first hydraulic valve of each of the first, second, third and fourth sets of hydraulic valves, the first conduit system selectively fluidically connecting a first of the variable displacement units to the first and second hydraulic actuators, each of the first hydraulic valves selectively fluidically connecting the first of the variable displacement units to one of the first or second hydraulic actuators;a second conduit system containing at least a second hydraulic valve of each of the first, second, third and fourth sets of hydraulic valves, the second conduit system selectively fluidically connecting the first and second hydraulic actuators to the reservoir, each of the second hydraulic valves selectively fluidically connecting one of the first or second hydraulic actuators to the reservoir;a third conduit system containing at least a third hydraulic valve of each of the first, second, third and fourth sets of hydraulic valves, the third conduit system selectively fluidically connecting a second of the variable displacement units to the first and second hydraulic actuators, each of the third hydraulic valves selectively fluidically connecting the second of the variable displacement units to one of the first or second hydraulic actuators, the third conduit system being adapted to transfer the fluid between the first and second hydraulic actuators;first valve means for selectively fluidically isolating the first conduit system from the third conduit system and selectively fluidically connecting the first conduit system to the third conduit system; andsecond valve means for selectively fluidically isolating the second conduit system from the third conduit system and selectively fluidically connecting the second conduit system to the third conduit system;wherein the hydraulic system is operable to: transfer energy when one of the first and second hydraulic actuators is subjected to a resistive load and the other of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid within the other of the first and second hydraulic actuators to the one of the first and second hydraulic actuators through the third conduit system;transfer energy when one of the first and second hydraulic actuators is subjected to a resistive load and the other of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid from the reservoir to the one of the first and second hydraulic actuators through the third conduit system while operating the second of the variable displacement units in the pumping mode thereof; andrecover energy when one of the first and second hydraulic actuators is subjected to an assistive load by transferring the fluid within the one of the first and second hydraulic actuators to the reservoir through the third conduit system while operating the second of the variable displacement units in the motoring mode thereof.
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이 특허에 인용된 특허 (7)
Sato Masayuki (Tsuchiura JPX), Civil engineering and construction machinery with hydraulic drive system.
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