In the linear motion guide unit, a retainer plate for retaining rolling elements, or rollers, is prevented from deformation so as to smoothly guide the rollers. The retainer plate is composed of a retainer member, frame members fitted into respective through holes formed in the retainer member, and a fixing member disposed in a longitudinally extending recess of the retainer member. The frame members form a predetermined gap between the fixing member and a carriage. Tightening forces of fastening bolts are not applied to the retainer member, thereby avoiding deformation of the retainer member.

Disclosed is a securing device for providing a movable unit of a linear guiding mechanism with additional safety in that the securing device prevents the movable unit from coming off a guiding rail in case of a bearing malfunction. The securing device comprises at least one securing portion and a coupling portion for coupling the at least one securing portion to the movable unit. The securing portion is engageable with the guiding rail in case of a failure of the movable unit.

A linear motion guide unit restrains fluctuations in sliding friction and generation of heat by correcting the postures of rollers having been inclined in a no-load area such that their axes become orthogonal to a guide surface of a carriage to thereby introduce the rollers in proper postures into a load area. A retainer plate of the guide unit has a guide surface for guiding end surfaces of the rollers and has protrusions protruding from the guide surface at its opposite end portions facing crownings of the carriage. The rollers rolling from a turnaround passage to a load-carrying race are pressed by the protrusions toward the guide surface of the carriage so as to be arrayed in such a posture that the axes of the rollers become orthogonal to the guide surface on the inlet side of the crowning of the carriage, whereby the occurrence of roller skew is prevented.

A movement guide device comprises: a support body formed with two roller rolling grooves in each of two side surfaces thereof; a moving body assembled onto the support body to freely move along the support body, and having a load roller rolling groove provided opposite to the roller rolling groove to form a load path together with the roller rolling groove; rollers arranged such that lines forming a contact angle with respect to the roller rolling groove intersect at a position outside the support body; and a roller retaining member arranged between two row of rollers, the moving body comprises a main moving body and cover bodies mounted at two ends of the main moving body; in the movement guide device, the roller retaining member comprises a roller retaining portion, formed in a plate shape extending in a length direction of the support body, and orthogonal to the length direction.

A linear motion guide unit includes a guide rail and a slider. A carriage of the slider has a central portion located above the guide rail, and wing portions which extend downward from widthwise opposite ends of the central portion. Shoulder portions of the carriage located in inner boundary regions between the central portion and the wing portions of the carriage have first inclined surface so that the shoulder portions have padding portions. Corner portions of the guide rail located between an upper surface and longitudinal sides of the guide rail have second inclined surfaces which face the first inclined surfaces of the carriage and extend in the longitudinal direction parallel to the first inclined surfaces. The first inclined surfaces have an inclination angle substantially the same as an inclination angle of the nose surfaces of threaded holes formed in the carriage for attachment of a counterpart member.

A linear guide 10 includes: a track rail 20 having a ball rolling groove 22; a movable block 30 having a loaded ball rolling groove 33 opposing the ball rolling groove 22, an unloaded ball rolling groove 34 extending in parallel with the direction in which the ball rolling groove 22 extends, and a direction change guide groove 35 connecting the loaded ball rolling groove 33 and the unloaded ball rolling groove 34; and a plurality of balls 40 arrayed on an endless circulating path including a loaded ball rolling path 50, an unloaded ball rolling path 60, and a direction change path 70 formed by the track rail 20 and the movable block 30. The direction change path 70 has a plurality of change points where the track changes. By having this configuration, it is possible to provide a linear guide which does not require an end plate.

Provided is a finite stroke type linear guide device including: a guide member (3) including a guide groove (30) and formed into a channel shape; a shaft member (4) configured to move inside the guide groove (30) along a longitudinal direction of the guide groove (30); a large number of rolling elements configured to roll between the guide member (3) and the shaft member (4) while bearing a load; and a cage (5) configured to be arranged inside the guide groove (30) of the guide member (3) so as to be present in a gap between the guide member (3) and the shaft member (4), the large number of rolling elements being rotatably arranged in the cage (5). Stoppers (6) are provided at both ends of the guide member (3) in a longitudinal direction, respectively, and are configured to allow the cage (5) to be brought into abutment against each of the stoppers (6). While the shaft member (4) has a regulating hole (42) which is elongated along a moving direction of the shaft member (4), the cage (5) has a locking protrusion (50) provided upright on the cage (5) and having a distal end part inserted into the regulating hole (42).

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 motion guide apparatus ensures that a retaining portion retains a rolling element. A rolling element retainer having retaining portions that prevent a rolling element from falling out of a movable body, the retaining portions extending along a loaded rolling element rolling portion, is incorporated in the movable body of the motion guide apparatus. End plates are formed integrally with the retaining portions. Fall prevention portions to reduce the widths of openings between the retaining portions are provided to center parts of the retaining portions in a length direction thereof. The fall prevention portions are padding portions integrated with the retaining portions, the padding portions rising in such a manner as to reduce the widths of the openings, and/or projections integrated with the retaining portions, the projections touching the movable body in such a manner that the center parts of the retaining portions bend toward a track member.

A curvilinear rolling guide unit allows a slider to readily straddle an endless guide rail and can prevent leakage of lubricant from a lubrication hole formed in each end cap. Each end cap is composed of an end cap body and a spacer. The end cap body has a lubrication hole, a lubrication groove, a slit which are formed in an upper portion thereof. The lubrication groove establish communication between the lubrication hole and turnaround passages. The slit extends from the lubrication hole to the under surface of the upper portion. A lubrication plug is fitted into the lubrication hole of the end cap body, closes the slit, and has a hole formed therein and serving as a lubrication passage communicating with the lubrication groove.