Hydraulic control circuit for construction machine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F15B-011/024
F15B-011/042
출원번호
US-0449824
(2007-07-18)
등록번호
US-8539762
(2013-09-24)
우선권정보
JP-2007-055319 (2007-03-06)
국제출원번호
PCT/JP2007/064136
(2007-07-18)
§371/§102 date
20090828
(20090828)
국제공개번호
WO2008/108013
(2008-09-12)
발명자
/ 주소
Shimada, Yoshiyuki
Nishikawa, Hiroyasu
Mishima, Masaru
Yokoyama, Yutaka
출원인 / 주소
Caterpillar Japan Ltd.
대리인 / 주소
Oliff & Berridge, PLC
인용정보
피인용 횟수 :
1인용 특허 :
2
초록▼
A hydraulic control circuit includes a hydraulic cylinder, a control valve, a recovery oil passage, a hydraulic pump, an engine rotation speed setting unit, a recovery control valve, and a controller that reduces an engine rotation speed to not more than a preset reduction control engine rotation sp
A hydraulic control circuit includes a hydraulic cylinder, a control valve, a recovery oil passage, a hydraulic pump, an engine rotation speed setting unit, a recovery control valve, and a controller that reduces an engine rotation speed to not more than a preset reduction control engine rotation speed when the load is lowered; and adjusts an increase or decrease in an opening amount of the recovery control valve in accordance with a level of the target rotation speed set by the engine rotation speed setting unit.
대표청구항▼
1. A hydraulic control circuit for a construction machine, the hydraulic control circuit comprising: a hydraulic cylinder that extends and retracts to raise a load through an oil supply to a weight holding-side oil chamber and an oil discharge from an anti-weight holding-side oil chamber and lower t
1. A hydraulic control circuit for a construction machine, the hydraulic control circuit comprising: a hydraulic cylinder that extends and retracts to raise a load through an oil supply to a weight holding-side oil chamber and an oil discharge from an anti-weight holding-side oil chamber and lower the load through an oil supply to the anti-weight holding-side oil chamber and an oil discharge from the weight holding-side oil chamber;a control valve that controls the oil supply and discharge to/from the weight holding-side and anti-weight holding-side oil chambers of the hydraulic cylinder under an operation of a hydraulic cylinder operating unit;a recovery oil passage that connects the weight holding-side oil chamber and the anti-weight holding-side oil chamber;a hydraulic pump that is driven by an engine, the hydraulic pump functioning as a hydraulic supply source for the hydraulic cylinder;an engine rotation speed setting unit that sets a target rotation speed of the engine;a recovery control valve that is in the recovery oil passage, the recovery control valve that supplies the oil discharge from the weight holding-side oil chamber to the anti-weight holding-side oil chamber when the load is lowered; anda controller that: compares the target rotation speed set by the engine rotation speed setting unit and a preset reduction control engine rotation speed,if the target rotation speed set by the engine rotation speed setting unit is greater than the preset reduction control engine rotation speed, reduces an engine rotation speed to the preset reduction control engine rotation speed,if the target rotation speed set by the engine rotation speed setting unit is less than or equal to the preset reduction control engine rotation speed, sets the engine rotation speed to the target rotation speed set by the engine rotation speed setting unit, andadjusts an increase or decrease in an opening amount of the recovery control valve in accordance with a level of the target rotation speed set by the engine rotation speed setting unit. 2. The hydraulic control circuit for the construction machine according to claim 1, wherein the opening amount of the recovery control valve is adjusted based on a pilot pressure that is output from an electromagnetic proportional pressure control valve that operates under a control signal from the controller, the electromagnetic proportional pressure control valve being in a pilot oil passage that runs to the recovery control valve from a pilot valve that outputs a pilot pressure under the operation of the hydraulic cylinder operating unit. 3. The hydraulic control circuit for the construction machine according to claim 1, wherein the opening amount of the recovery control valve is adjusted based on a pilot pressure that is output from an electromagnetic proportional pressure control valve that operates under a control signal from the controller, the electromagnetic proportional pressure control valve being connected to a pilot hydraulic source. 4. The hydraulic control circuit for the construction machine according to claim 1, wherein the opening amount of the recovery control valve is adjusted also in accordance with an operation amount of the hydraulic cylinder operating unit. 5. A method of operating a hydraulic control circuit for a construction machine, the hydraulic control circuit including: a hydraulic cylinder that extends and retracts to raise a load through an oil supply to a weight holding-side oil chamber and an oil discharge from an anti-weight holding-side oil chamber and lower the load through an oil supply to the anti-weight holding-side oil chamber and an oil discharge from the weight holding-side oil chamber;a control valve that controls the oil supply and discharge to/from the weight holding-side and anti-weight holding-side oil chambers of the hydraulic cylinder under an operation of a hydraulic cylinder operating unit;a recovery oil passage that connects the weight holding-side oil chamber and the anti-weight holding-side oil chamber;a hydraulic pump that is driven by an engine, the hydraulic pump functioning as a hydraulic supply source for the hydraulic cylinder;an engine rotation speed setting unit that sets a target rotation speed of the engine; anda recovery control valve that is in the recovery oil passage, the recovery control valve that supplies the oil discharge from the weight holding-side oil chamber to the anti-weight holding-side oil chamber when the load is lowered, the method comprising the steps of:comparing the target rotation speed set by the engine rotation speed setting unit and a present reduction control engine rotation speed,if the target rotation speed set by the engine rotation speed setting unit is greater than the preset reduction control engine rotation speed, then reducing an engine rotation speed to the preset reduction control engine rotation speed,if the target rotation speed set by the engine rotation speed setting unit is less than or equal to the preset reduction control engine rotation speed, then setting the engine rotation speed to the target rotation speed set by the engine rotation speed setting unit, andadjusting an increase or decrease in an opening amount of the recovery control valve in accordance with a level of the target rotation speed set by the engine rotation speed setting unit. 6. The method according to claim 5, wherein the opening amount of the recovery control valve is adjusted based on a pilot pressure that is output from an electromagnetic proportional pressure control valve that operates under a control signal, the electromagnetic proportional pressure control valve being in a pilot oil passage that runs to the recovery control valve from a pilot valve that outputs a pilot pressure under the operation of the hydraulic cylinder operating unit. 7. The method according to claim 5, wherein the opening amount of the recovery control valve is adjusted based on a pilot pressure that is output from an electromagnetic proportional pressure control valve that operates under a control signal, the electromagnetic proportional pressure control valve being connected to a pilot hydraulic source. 8. The method according to claim 5, wherein the opening amount of the recovery control valve is adjusted also in accordance with an operation amount of the hydraulic cylinder operating unit.
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이 특허에 인용된 특허 (2)
Toyooka Tsukasa (Ibaraki JPX) Hirata Toichi (Ushiku JPX) Sugiyama Genroku (Ibaraki JPX) Tatsumi Akira (Tokyo JPX), Hydraulic control system for construction machines.
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