IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0516454
(2011-04-26)
|
등록번호 |
US-8656798
(2014-02-25)
|
우선권정보 |
JP-2010-101448 (2010-04-26); JP-2010-108367 (2010-05-10); JP-2011-091091 (2011-04-15) |
국제출원번호 |
PCT/JP2011/002453
(2011-04-26)
|
§371/§102 date |
20120615
(20120615)
|
국제공개번호 |
WO2011/135849
(2011-11-03)
|
발명자
/ 주소 |
- Kawahara, Hiroshi
- Harada, Tooru
- Yamashita, Tomofumi
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
17 |
초록
▼
A linear actuator is provided which is able to simplify its structure by adding a stopper function, too, to a detent mechanism and to prevent generation of radial load. The linear actuator comprises a ball screw mechanism, to which a rotational driving force is transmitted, for converting a rotation
A linear actuator is provided which is able to simplify its structure by adding a stopper function, too, to a detent mechanism and to prevent generation of radial load. The linear actuator comprises a ball screw mechanism, to which a rotational driving force is transmitted, for converting a rotational motion into a linear motion. The ball screw mechanism comprises radially projecting guide projections provided in a linear motion component, and a guide groove arranged in a securing portion facing the linear motion component and is engaged with the guide projections to guide the guide projections in an axial direction. The guide projection has a projection projecting by the predetermined length, while engaging into the guide groove, at a stroke end of the linear motion component and a locking portion provided in a rotary motion component is locked to the projection of the guide projection.
대표청구항
▼
1. A linear actuator comprising: a rotational motion component;a linear motion component; anda ball screw mechanism configured to convert a rotational motion transmitted to the rotational motion component into a linear motion, wherein the ball screw mechanism has a guide projection projecting in a r
1. A linear actuator comprising: a rotational motion component;a linear motion component; anda ball screw mechanism configured to convert a rotational motion transmitted to the rotational motion component into a linear motion, wherein the ball screw mechanism has a guide projection projecting in a radial direction and provided in the linear motion component, and a guide groove engaged with the guide projection and disposed in a securing portion facing the linear motion component to guide the guide projection in an axial direction, and has a structure to make the linear motion component subject not to rotate,the rotation of the guide projection is restricted at a shaft arranged in the linear motion component and a first position of the guide projection is adjustable in an axial direction, and is provided on a first outer peripheral surface of a cylindrical body with a shaft end position at the stroke end secured in such a manner that the axial end portion can be shifted along the axial direction, and the guide projection has a projection projecting by a predetermined length from the guide groove, while engaging into the guide groove, at a stroke end of the linear motion component, and abuts a abutting portion provided in the rotational motion component with the projection of the guide projection,the guide groove is formed in a guide member having a second outer peripheral surface in the axial direction, and the guide member is fit into a support hole in a rotatable manner, the support hole being formed in the axial direction at a second position, facing the linear motion component, of the securing portion,the second outer peripheral surface has a cylindrical portion,the support hole has an inner circumference surface, andthe guide member has an engage groove on the cylindrical portion, the engage groove being engaged with a projecting stripe formed on the inner peripheral surface, the projecting stripe extending along a circumferential direction of the inner circumference surface. 2. The linear actuator according to claim 1, wherein the guide projection is provided on the first outer peripheral surface of the cylindrical body on an inner peripheral surface where a spline hole is formed, and the cylindrical body is secured to the linear motion component with the spline hole engaged with a spline axis provided in the linear motion component. 3. The linear actuator according to claim 1, wherein the axial length of the guide projection is set longer than a lead of the ball screw mechanism. 4. The linear actuator according to claim 1, wherein the cylindrical portion of the second outer peripheral surface has a cross-sectional shape having a first circular form with a first center angle of more than 180 degrees, and the inner circumference surface has a cross-sectional shape having a second circular form with a second center angle of more than 180 degrees. 5. The linear actuator according to claim 4, wherein the second outer peripheral surface is formed of the cylindrical portion and a plane portion connecting both ends of the cylindrical portion, andthe guide groove is formed in the plane portion. 6. The linear actuator according to claim 1, wherein the guide projection has a projection projecting by a predetermined length, while engaging in the guide groove, at a stroke end of the linear motion component, and a locking portion provided in the rotational motion component is locked to the projection. 7. The linear actuator according to claim 1, wherein a pair of the guide projections are provided in the linear motion component at a corresponding position with respect to a central axis of the linear motion component, a pair of the support holes are formed at a symmetrical position with respect to a central axis of the linear motion component of the securing portion, a pair of the guide members are rotatably held in the pair of the support holes, respectively, and the pair of the guide projections are engaged into the guide grooves of the pair of the guide members, respectively. 8. The linear actuator according to claim 1, wherein the guide member is formed by cutting a long member to a predetermined length manufactured by punching. 9. The linear actuator according to claim 1, wherein an external form of the guide member is formed of a large-diameter portion and a small-diameter portion, andthe support hole has a large-diameter hole and a small-diameter hole respectively engaging to the large-diameter portion and the small-diameter portion of the guide member, and a tapered portion connecting the large-diameter hole to the small-diameter hole. 10. The linear actuator according to claim 1, wherein the guide member is manufactured by a sintered product. 11. The linear actuator according to claim 1, wherein the abutting portion is integrally provided in the rotational motion component, is molded before grooving of at least one of a ball screw groove and a circulating groove of the rotational motion component, and established as a machining reference level for at least one of the ball screw groove and the circulating groove. 12. The linear actuator according to claim 2, wherein the axial length of the guide projection is set longer than a lead of the ball screw mechanism. 13. A linear actuator comprising: a rotational motion component;a linear motion component; anda ball screw mechanism configured to convert a rotational motion transmitted to the rotational motion component into a linear motion, wherein the ball screw mechanism has a guide projection projecting in a radial direction and provided in the linear motion component, and a guide groove engaged with the guide projection disposed in a securing portion facing the linear motion component to guide the guide projection in an axial direction, and has a structure to make the linear motion component subject not to rotate,the guide groove is formed in a guide member having a cylindrical outer peripheral surface in an axial direction, and the guide member is fit into a support hole in a rotatable manner, the support hole being formed in an axial direction at a position facing the linear motion component of the securing portion,the support hole has an inner circumference surface, andthe guide member has an engage groove on the cylindrical outer peripheral surface, the engage groove being engaged with a projecting stripe formed on the inner peripheral surface, the projecting stripe extending along a circumferential direction of the inner circumference surface.
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