An electric actuator includes a shaft member, a nut member, a power transmission member, and a guide portion. A spiral groove is formed on an outer circumference of the shaft member. The nut member is fitted onto the shaft member. A power transmission member is disposed between an inner circumferenc
An electric actuator includes a shaft member, a nut member, a power transmission member, and a guide portion. A spiral groove is formed on an outer circumference of the shaft member. The nut member is fitted onto the shaft member. A power transmission member is disposed between an inner circumference of the nut member and the groove. The guide portion is configured to guide linear motion of the shaft member. Rotation of the nut member about the shaft member by means of a rotational driving force of an electric motor results in the linear motion of the shaft member. The guide portion includes a rotating mechanism portion configured to rotate the shaft member about an axis when the shaft member is in the linear motion.
대표청구항▼
1. An electric actuator comprising: a shaft member on an outer circumference of which a spiral groove is formed;a nut member that is fitted onto the shaft member;a power transmission member that is disposed between an inner circumference of the nut member and the groove; anda guide portion configure
1. An electric actuator comprising: a shaft member on an outer circumference of which a spiral groove is formed;a nut member that is fitted onto the shaft member;a power transmission member that is disposed between an inner circumference of the nut member and the groove; anda guide portion configured to guide linear motion of the shaft member, whereinrotation of the nut member about the shaft member by means of a rotational driving force of an electric motor results in the linear motion of the shaft member, andthe guide portion includes a rotating mechanism portion configured to rotate the shaft member about an axis when the shaft member is in the linear motion,wherein the guide portion includes a reverse rotating portion configured to rotate the shaft member, which is in the linear motion, in an opposite direction to a rotation direction of the nut member, andwherein the guide portion includes a forward rotating portion configured to rotate the shaft member, which is in the linear motion, in the same direction as a rotation direction of the nut member. 2. The electric actuator according to claim 1, wherein a protrusion portion protrudes from an outer circumference of the shaft member,the guide portion is provided with a guide groove configured to be brought into engagement with the protrusion portion so as to guide the linear motion of the shaft member,the guide groove constitutes the rotating mechanism portion, andthe rotating mechanism portion includes an inclination portion that is inclined with respect to the direction of the axis. 3. The electric actuator according to claim 1, wherein the power transmission member includes a ball configured to roll in the groove as the nut member rotates. 4. The electric actuator according to claim 1, wherein the guide portion is formed as a separate member from a base body that houses the shaft member. 5. The electric actuator according to claim 1, wherein the guide portion has a straight-line portion that configured to cause the shaft member to be in the linear motion without any rotation. 6. A vehicle brake system comprising: a hydraulic pressure generator including the electric actuator according to claim 1, whereinthe hydraulic pressure generator is configured to generate a brake hydraulic pressure by driving the electric motor according to an operation amount of a brake controller so as to displace the shaft member, andcompressing a brake fluid by means of a slave piston that is displaced within a cylinder main body as the shaft member is displaced. 7. The vehicle brake system according to claim 6, wherein a displacement speed of the slave piston relative to a rotating speed of the nut member is changeable. 8. The vehicle brake system according to claim 7, wherein the guide portion is formed to rotate the shaft member in an opposite direction to a rotation direction of the nut member when the electric motor is started in such a state that no brake hydraulic pressure is generated in the hydraulic pressure generator, andthereafter to rotate the shaft member in the same direction as the rotation direction of the nut member when the shaft member is displaced further. 9. A vehicle brake system comprising: a hydraulic pressure generator configured to drive an electric motor according to an operation amount of a brake controller, whereinthe hydraulic pressure generator includes an electric actuator configured to translate rotational motion of a nut member that rotates by means of a rotational driving force of the electric motor, into linear motion of a shaft member, anda slave piston that is displaced within a cylinder main body as the shaft member, which is in the linear motion, is displaced so to compress a brake fluid to thereby generate a brake hydraulic pressure, anda displacement speed of the slave piston relative to a rotating speed of the nut member is changeable,wherein the electric actuator comprises a guide portion configured to guide linear motion of the shaft member, andwherein the guide portion is formed to rotate the shaft member in an opposite direction to a rotation direction of the nut member when the electric motor is started in such a state that no brake hydraulic pressure is generated in the hydraulic pressure generator and thereafter to rotate the shaft member in the same direction as the rotation direction of the nut member when the shaft member is displaced further. 10. The electric actuator according to claim 1, wherein the guide portion is an end cap fixed to a main body, the end cap is a cylindrical member comprising a bottom surface and an opening portion, wherein the shaft member is housed inside the end cap. 11. The electric actuator according to claim 10, wherein the rotating mechanism portion includes opposing slits formed in a circumferential wall of the end cap so as to penetrate through the end cap, andthe slits are brought into engagement with guide pins, which protrude from an outer circumference of the shaft member, the slits guide the movement of the guide pins when the shaft member is displaced. 12. The electric actuator according to claim 11, wherein the slits are divided into a first inclination portion on the opening portion and a second inclination portion on a closed portion and a linear portion between the first inclination portion and the second inclination portion and which is parallel to the axial direction of the shaft member. 13. The electric actuator according to claim 12, wherein the first inclination portion is inclined with respect to the axial direction and the second inclination portion is inclined with respect to the axial direction towards the closed portion,the second inclination portion is formed from a predetermined start point P1 located on the closed portion to a termination point P2 located on the opening portion,the straight-line portion is formed from a start point that is the termination point P2 of the second inclination portion to a termination point P3 that is located on the opening portion of the termination point P2, andthe first inclination portion is formed from a start point that is the termination point P3 of the straight-line portion to a termination point P4 that is located at the opening portion. 14. The electric actuator according to claim 13, wherein the termination point P2 of the second inclination portion is located in a position which is obtained by rotating the start point P1 about a center line CL by a predetermined angle,the termination point P4 of the first inclination portion is located in a position obtained by rotating the start point P3 about the center line CL, anda rotation direction from the start point P1 to the termination point P2 of the second inclination portion is opposite to a rotation direction from the start point P3 to the termination point P4 of the first inclination portion. 15. The electric actuator according to claim 14, wherein the second inclination portion is formed so as to rotate the guide pins rightwards about the center line CL as seen from the closed portion when the shaft member is displaced in a forward direction FW, andthe first inclination portion is formed so as to rotate the guide pins leftwards as seen from the closed portion when the shaft member is displaced in the forward direction FW. 16. The electric actuator according to claim 15, when the guide pins are guided by the second inclination portion, the shaft member rotates rightwards, and the nut member and the shaft member rotate in opposite directions,when the guide pins are guided by the straight-line portion, the shaft member does not rotate, andwhen the guide pins are guided by the first inclination portion, the shaft member rotates leftwards, and the nut member and the shaft member rotate in the same direction. 17. The electric actuator according to claim 16, wherein a rotating speed of the nut member is faster than a rotating speed of the shaft member. 18. An electric actuator comprising: a shaft member on an outer circumference of which a spiral groove is formed;a nut member that is fitted onto the shaft member;a power transmission member that is disposed between an inner circumference of the nut member and the groove; anda guide portion configured to guide linear motion of the shaft member, whereinrotation of the nut member about the shaft member by means of a rotational driving force of an electric motor results in the linear motion of the shaft member,the guide portion includes a rotating mechanism portion configured to rotate the shaft member about an axis when the shaft member is in the linear motion,the guide portion is an end cap fixed to a main body, the end cap is a cylindrical member comprising a bottom surface and an opening portion, wherein the shaft member is housed inside the end cap,the rotating mechanism portion includes opposing slits formed in a circumferential wall of the end cap so as to penetrate through the end cap,the slits are brought into engagement with guide pins, which protrude from an outer circumference of the shaft member, the slits guide the movement of the guide pins when the shaft member is displaced, andthe slits are divided into a first inclination portion on the opening portion and a second inclination portion on a closed portion and a linear portion between the first inclination portion and the second inclination portion and which is parallel to the axial direction of the shaft member.
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이 특허에 인용된 특허 (2)
Salman Mutasim A. (Rochester MI), Antilock brake control system.
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