Hydraulic system with thermal shock protection
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0215692
(2008-06-26)
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등록번호 |
US-8327562
(2012-12-11)
|
발명자
/ 주소 |
- Hartwick, Ty
- Morgan, Jason
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출원인 / 주소 |
- Vermeer Manufacturing Company
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
7 |
초록
▼
A hydraulic system with thermal shock protection. The hydraulic system can include a controller that limits when hot hydraulic fluids may be directed to cold hydraulic components. The hydraulic system can be used in machines such as trenchers to protect hydraulic components such as hydraulic motors
A hydraulic system with thermal shock protection. The hydraulic system can include a controller that limits when hot hydraulic fluids may be directed to cold hydraulic components. The hydraulic system can be used in machines such as trenchers to protect hydraulic components such as hydraulic motors from failure due to thermal shock.
대표청구항
▼
1. A trencher comprising: a chassis supported on a pair of tracks, the tracks configured to move the trencher;a boom pivotally mounted to the chassis, the boom configured to support a tool;an engine mounted to the chassis;a plurality of hydraulic pumps configured to be driven by the engine;a hydraul
1. A trencher comprising: a chassis supported on a pair of tracks, the tracks configured to move the trencher;a boom pivotally mounted to the chassis, the boom configured to support a tool;an engine mounted to the chassis;a plurality of hydraulic pumps configured to be driven by the engine;a hydraulic reservoir connected to the plurality of hydraulic pumps;a track drive hydraulic circuit having a hydraulic motor for driving the tracks, wherein the track drive hydraulic motor is connected to at least one of the plurality of hydraulic pumps;a tool drive hydraulic circuit having a hydraulic motor for driving the tool, wherein the tool drive hydraulic motor is connected to at least one of the hydraulic pumps;a control system that includes a thermal shock avoidance function;wherein, the control system determines a first and second value where the first value is representative of a temperature of hydraulic fluid in the reservoir, and the second value is representative of a temperature of a first hydraulic circuit desired to be activated, the first hydraulic circuit being one of the track drive hydraulic circuit and the tool drive hydraulic circuit; andwherein, the control system compares the first and second values and activates the thermal shock avoidance function if the comparison indicates that the temperature of the hydraulic fluid in the reservoir is a predetermined amount warmer than hydraulic fluid in the first hydraulic circuit. 2. The trencher of claim 1, wherein the second value that is representative of the temperature of the first hydraulic circuit is determined by an algorithm that utilizes an ambient temperature. 3. The trencher of claim 1, wherein the first value that is representative of the temperature of the hydraulic fluid is a temperature of the hydraulic fluid within the hydraulic reservoir. 4. The trencher of claim 1, wherein the second value that is representative of the temperature of the first hydraulic circuit is a temperature of the hydraulic fluid in a hydraulic line connected to an outlet of the tool drive hydraulic motor. 5. The trencher of claim 1, wherein the thermal shock avoidance function limits a maximum flow of hydraulic fluid that can be directed to the tool drive hydraulic motor. 6. The trencher of claim 1, wherein the thermal shock avoidance function alerts an operator that thermal shock conditions exist. 7. The trencher of claim 1, wherein the thermal shock avoidance function automatically directs hydraulic fluid to the tool drive hydraulic motor. 8. The trencher of claim 1, wherein the first value that is representative of the temperature of the hydraulic fluid in the reservoir is determined by an algorithm that utilizes data that corresponds to the operational characteristics of the trencher. 9. A machine comprising: a chassis supported on a rotatable drive mechanism, the rotatable drive mechanism configured to move the machine;a tool movably mounted to the chassis;an engine mounted to the chassis;a plurality of hydraulic pumps driven by the engine;a hydraulic reservoir connected to the plurality of hydraulic pumps;a drive hydraulic circuit having a hydraulic motor for driving the rotatable drive mechanism, wherein the drive hydraulic motor is connected to at least one of the plurality of hydraulic pumps;a tool drive hydraulic circuit having a hydraulic motor for driving the tool, wherein the tool drive hydraulic motor is connected to at least one of the plurality of hydraulic pumps;a control system that includes a thermal shock avoidance function;wherein, the control system determines a first and second value where the first value is representative of a temperature of hydraulic fluid in the reservoir, and the second value is representative of a temperature of a first hydraulic circuit desired to be activated, the first hydraulic circuit being one of the track drive hydraulic circuit and the tool drive hydraulic circuit; andwherein, the control system compares the first and second values and activates the thermal shock avoidance function if the comparison indicates that the temperature of the hydraulic fluid in the reservoir is a predetermined amount warmer than the hydraulic fluid in the first hydraulic circuit. 10. The machine of claim 9, wherein the first and second values are based, at least in part, on an ambient temperature, the temperature of the hydraulic fluid within the hydraulic reservoir, or a temperature of a hydraulic fluid in a hydraulic line connected to the outlet of the tool drive hydraulic motor. 11. The machine of claim 1, wherein the thermal shock avoidance function limits a maximum flow of hydraulic fluid that can be directed to the tool drive hydraulic motor. 12. The machine of claim 1, wherein the thermal shock avoidance function alerts an operator that thermal shock conditions exist. 13. The machine of claim 9, wherein the thermal shock avoidance function automatically directs hydraulic fluid to the tool drive hydraulic motor.
이 특허에 인용된 특허 (7)
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Schexnayder ; Lawrence Francis, Brake cooling circuit.
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Denbraber Lee R. (Peoria IL) Hawkins Mark R. (Chillicothe IL) Meinhold David R. (Metamora IL) Zmuda Steven J. (Dunlap IL), Cold oil protection circuit for a hydraulic system.
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Fujishima Kazuo,JPX ; Watanabe Hiroshi,JPX ; Haga Masakazu,JPX ; Nakagawa Takashi,JPX, Front control system for construction machine and oil temperature indicator.
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Grattapaglia ; Giorgio ; Barbagli ; Rino, Hydraulic system for an earth-moving machine and a temperature-controlled valve for a hydraulic system.
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Kennedy, William R.; Kennedy, John M., Hydraulically powered door and systems for operating same in low-temperature environments.
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Humphreys Rex T. (Washington IL) Medina Glenn J. (Joliet IL) Parker Patrick A. (Morton IL), Temperature-control arrangement for a pair of hydraulic motors.
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Chris McSharry ; Herbert E. Jakob, Trench-cutting machine with cutting head lock mechanism.
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