The invention allows securing greater discharge pressure and flow rate at high revolutions of an engine in order to secure lubrication and cooling, while reducing discharge pressure and flow rate at low and medium revolutions of the engine in order to improve efficiency. The invention includes a hou
The invention allows securing greater discharge pressure and flow rate at high revolutions of an engine in order to secure lubrication and cooling, while reducing discharge pressure and flow rate at low and medium revolutions of the engine in order to improve efficiency. The invention includes a housing; a relief valve; a valve passage; a main discharge flow channel; a main relief flow channel; an auxiliary relief flow channel; a solenoid valve mounted on the auxiliary relief flow channel; and a spring. The solenoid valve is controlled so as to switch between communication and shut-off between the auxiliary relief flow channel and the large-diameter passage section in accordance with an increase or decrease in engine revolutions, and oil in the large-diameter passage section is discharged when the shut-off is implemented.
대표청구항▼
1. A relief valve device, comprising: a housing;a relief valve including a small-diameter section having a main pressure-receiving surface and a large-diameter section including a stepped site as an auxiliary pressure-receiving surface, the small-diameter section and the large-diameter section being
1. A relief valve device, comprising: a housing;a relief valve including a small-diameter section having a main pressure-receiving surface and a large-diameter section including a stepped site as an auxiliary pressure-receiving surface, the small-diameter section and the large-diameter section being formed integrally with each other;a valve passage including a small-diameter passage section and a large-diameter passage section;a main discharge flow channel that communicates the small-diameter passage section with the exterior of the housing;a main relief flow channel that communicates with the small-diameter passage section;an auxiliary relief flow channel that communicates with the large-diameter passage section;a solenoid valve mounted on the auxiliary relief flow channel; anda spring that elastically urges the relief valve in a direction opposite to a pressure relief direction,wherein the relief valve is displaced by both oil that flows into the large-diameter passage section pressing against the auxiliary pressure-receiving surface of the relief valve and oil that flows into the small-diameter passage section pressing against the main pressure-receiving surface of the relief valve, andwherein the solenoid valve is controlled so as to switch between communication and shut-off between the auxiliary relief flow channel and the large-diameter passage section, in accordance with an increase or a decrease in engine revolutions, and the oil that flows into the large-diameter passage section is discharged when the shut-off is implemented. 2. The relief valve device according to claim 1, wherein the auxiliary relief flow channel branches from the main relief flow channel. 3. The relief valve device according to claim 1, wherein an axial direction dimension of the small-diameter section of the relief valve is formed to be longer than a total passage length of the small-diameter passage section. 4. The relief valve device according to claim 1, wherein an in-valve flow channel, which communicates from the main pressure-receiving surface over an outer peripheral side face of the large-diameter section, is formed inside the relief valve. 5. The relief valve device according to claim 4, wherein a preliminary discharge flow channel is formed in the large-diameter passage section, and a flow channel opening of the in-valve flow channel, on a side of the large-diameter section, is configured to communicate with the preliminary discharge flow channel. 6. The relief valve device according to claim 2, wherein an axial direction dimension of the small-diameter section of the relief valve is formed to be longer than a total passage length of the small-diameter passage section. 7. The relief valve device according to claim 2, wherein an in-valve flow channel, which communicates from the main pressure-receiving surface over an outer peripheral side face of the large-diameter section, is formed inside the relief valve. 8. The relief valve device according to claim 3, wherein an in-valve flow channel, which communicates from the main pressure-receiving surface over an outer peripheral side face of the large-diameter section, is formed inside the relief valve. 9. The relief valve device according to claim 6, wherein an in-valve flow channel, which communicates from the main pressure-receiving surface over an outer peripheral side face of the large-diameter section, is formed inside the relief valve. 10. The relief valve device according to claim 7, wherein a preliminary discharge flow channel is formed in the large-diameter passage section, and a flow channel opening of the in-valve flow channel, on a side of the large-diameter section, is configured to communicate with the preliminary discharge flow channel. 11. The relief valve device according to claim 8, wherein a preliminary discharge flow channel is formed in the large-diameter passage section, and a flow channel opening of the in-valve flow channel, on a side of the large-diameter section, is configured to communicate with the preliminary discharge flow channel. 12. The relief valve device according to claim 9, wherein a preliminary discharge flow channel is formed in the large-diameter passage section, and a flow channel opening of the in-valve flow channel, on a side of the large-diameter section, is configured to communicate with the preliminary discharge flow channel. 13. The relief valve device according to claim 1, wherein the small-diameter section and the large-diameter section are configured to receive a pressure from the oil. 14. The relief valve device according to claim 1, further comprising: an auxiliary relief flow channel branching from the main relief flow channel, a part of the oil that flows through the main relief flow channel flowing into the auxiliary relief flow channel; anda connection flow channel including a flow channel that is located in the auxiliary relief flow channel between the large-diameter passage section and the solenoid valve. 15. The relief valve device according to claim 14 wherein the solenoid valve comprises a direction control section that controls a flow direction between the auxiliary relief flow channel, the connection flow channel, and the auxiliary discharge flow channel. 16. The relief valve device according to claim 15, wherein, when the auxiliary relief flow channel, the direction control section, and the connection flow channel communicate with each other, the oil flows into the large-diameter passage section.
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이 특허에 인용된 특허 (4)
Fischer, Thomas H., Compound valve assembly for controlling high and low oil flow and pressure.
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