A linear motion guiding device that is unlikely to cause a damage to a tongue unit of an end cap even when the linear motion guiding device is used under high-speed conditions is provided. An end cap (22) includes, at an end of a side of a raceway of an arc groove (222) that forms an outer peripheral surface of a direction changing passage (42), a tongue unit (25) that scoops up a ball (3) from a raceway (41) and guide the ball to a direction changing passage (42). A distal end surface (251) of the tongue unit includes a plane (251a) perpendicular to a direction along the raceway (41) and a circular-arc surface (251b) that caves into an arc shape from the plane. A curvature radius of a circular-arc surface is smaller than a radius of the ball. A center of a circle indicating a curvature of a circular-arc surface is present on a line shifted from a groove bottom line of the arc groove by at least an offset amount between a raceway groove (12) of a side of the guide rail and the raceway groove (212) of a side of the slider.

A slider slidably straddling over a guide rail, an attachment plate having a square U-shape attached to an end surface of the slider and including opposite vertical frames and a horizontal frame connecting the vertical frames, and a sliding scraper fitted in a square U-shape groove of the attachment plate and including opposite vertical portions and a horizontal portion connecting the opposite vertical portions, and a groove portion that is in sliding contact with the guide rail are provided, and protrusion portions at which the vertical frames and the vertical portions are in abutment with each other are provided an open end portion of an inner side surface of each of the opposite vertical frames of the attachment plate or an end portion of an outer side surface of each of the opposite vertical portions of the sliding scraper, the end portion facing the relevant open end portion.

A retainer is used for a linear guideway, including a main body, a retaining portion, and a hollow portion. The main body extends along the longitudinal direction of the retainer. The retaining portion extends from a long side of the main body along the width direction of the retaining portion. The hollow portion is abutted between the retaining portion and the main body for allowing a part of the retaining portion to be elastically deformed when the retaining portion is compressed by an external force. Therefore, when balls are assembled, the retainer of the present invention uses the partial elastic deformation of the retaining portion to avoid damage caused by directly collided with the balls, thereby enhancing convenience of installing and removing the balls. In addition, the hollow portion can be used to save lubricating oil for achieving the effect of extended lubrication.

A transfer system for transporting objects is disclosed. It includes a guide rail, which has a light-metal main body and at least one guide element, which is connected to the light-metal main body and has a guide surface. A slide for accommodating at least one object and a bearing, which interacts with the guide element and supports the slide on the guide rail in such a way that the slide can move linearly is also included. The guide rail has at least one magnetic fastening means, which makes it possible to temporarily fasten the guide rail by magnetic clamping, in particular in order to process the guide surface.

This rotation-linear motion conversion apparatus (10) includes: a pinion shaft (20) in which a pinion gear (22) is formed; a rack bar (30) in which a rack gear (32) that engages with the pinion gear (22) and a support surface (31) along a longitudinal direction are formed; and a support part (40) that supports the rack bar (30) movably along the support surface (31). The support part (40) prevents a movement of the rack bar (30) in a direction X perpendicular to a surface (30a) in which the rack gear (32) is formed.

A linear motion guiding device that is unlikely to cause a damage to a tongue unit of an end cap even when the linear motion guiding device is used under high-speed conditions is provided. An end cap (22) includes, at an end of a side of a raceway of an arc groove (222) that forms an outer peripheral surface of a direction changing passage (42), a tongue unit (25) that scoops up a ball (3) from a raceway (41) and guide the ball to a direction changing passage (42). A distal end surface (251) of the tongue unit includes a plane (251a) perpendicular to a direction along the raceway (41) and a circular-arc surface (251b) that caves into an arc shape from the plane. A curvature radius of a circular-arc surface is smaller than a radius of the ball. A center of a circle indicating a curvature of a circular-arc surface is present on a line shifted from a groove bottom line of the arc groove by at least an offset amount between a raceway groove (12) of a side of the guide rail and the raceway groove (212) of a side of the slider.

There is provided a linear motion guide device that is reduced in a contact surface pressure between a ball and a raceway groove so that an occurrence of an edge load can hardly occur, even when any of a pressing load, a tensile load, and a lateral load is applied to a slider. Upper flanks and lower flanks included in raceway grooves of a guide rail and a slider each include: a main arc portion having an arc-shaped section and placed generally in a center of the flank in a width direction; a groove shoulder side sub-arc portion having an arc-shaped section and formed continuously from a groove shoulder side of the main arc portion; and a groove bottom side sub-arc portion having an arc sectional shape and formed continuously from a groove bottom side of the main arc portion. Further, a curvature radius of the groove shoulder side sub-arc portion is different from a curvature radius of the groove bottom side sub-arc portion.

A seat slide apparatus for a vehicle, the seat slide apparatus includes: a lower rail which is fixed to a vehicle floor; an upper rail which is slidably engaged with the lower rail; and a rolling element circulation unit having rolling elements and interposed between the lower rail and the upper rail in a state where the rolling elements are able to be circulated, in which the lower rail includes a bottom wall portion, sidewall portions, and upper wall portions, the upper rail includes a main body portion, and folded-back portions, the rolling element circulation unit includes a case having an annular accommodating path accommodating the rolling elements, between the lower rail and the upper rail, an upper rolling element circulation unit and a lower rolling element circulation unit are provided to be disposed at two positions spaced apart from each other, and the upper rail includes a pedestal portion.

Provided is a linear motion guide device that is less noisy and excellent in operability. A concave groove of a return guide and a raceway groove of a slider are not smoothly continued at a connection portion therebetween, where a stepped portion is formed. At a groove bottom portion of the raceway groove of the slider and the neighboring portion thereof, the surface of the raceway groove of the slider is located to be closer to a curvature center of the raceway groove of the slider than the surface of the concave groove of the return guide is. At a groove shoulder portion of the raceway groove of the slider and the neighboring portion thereof, the surface of the concave groove of the return guide is located to be closer to the curvature center of the raceway groove of the slider than the surface of the raceway groove of the slider is.

A retainer is used for a linear guideway, including a main body, a retaining portion, and a hollow portion. The main body extends along the longitudinal direction of the retainer. The retaining portion extends from a long side of the main body along the width direction of the retaining portion. The hollow portion is abutted between the retaining portion and the main body for allowing a part of the retaining portion to be elastically deformed when the retaining portion is compressed by an external force. Therefore, when balls are assembled, the retainer of the present invention uses the partial elastic deformation of the retaining portion to avoid damage caused by directly collided with the balls, thereby enhancing convenience of installing and removing the balls. In addition, the hollow portion can be used to save lubricating oil for achieving the effect of extended lubrication.