Linear motion guide unit

What is claimed is: 1. A linear motion guide unit comprising: a rail having a pair of first rolling surfaces extending parallel to each other in a longitudinal direction; a slider fitting over the rail in a relatively movable manner and having a pair of second rolling surfaces opposing the pair of first rolling surfaces, respectively; and a plurality of spheres as rolling elements that roll while contacting the pair of first rolling surfaces and the pair of second rolling surfaces; the linear motion guide unit having formed therein a loop path composed of a load-carrying race formed with the pair of first rolling surfaces and the pair of second rolling surfaces, a first circulation passage parallel to the load-carrying race and formed in the slider, and two second circulation passages that are connecting portions between the load-carrying race and the first circulation passage, the plurality of rolling elements circulating through the loop path, wherein the load-carrying race has a load-carrying race first portion at a boundary with the second circulation passage, a contact angle θ 1 of the plurality of rolling elements with the second rolling surface in the load-carrying race first portion being greater than a contact angle θ 2 of the plurality of rolling elements with the second rolling surface in a portion of the load-carrying race other than the load-carrying race first portion, the slider includes a carriage, a pair of end caps disposed to sandwich the carriage therebetween in the longitudinal direction of the rail, and a spacer disposed between at least one of the pair of end caps and the carriage, and the spacer has the second rolling surface constituting the load-carrying race first portion. 2. The linear motion guide unit according to claim 1 , wherein the spacer is a resin molded member. 3. The linear motion guide unit according to claim 1 , wherein the load-carrying race first portion has a length in the longitudinal direction of the rail of not less than 0.25 times and not more than 3 times a diameter of the rolling element. 4. The linear motion guide unit according to claim 3 , wherein in the load-carrying race first portion, the plurality of rolling elements contact the pair of second rolling surface at two points, and each of the pair of second rolling surfaces containing the respective contact points is a flat surface extending in the longitudinal direction of the rail. 5. The linear motion guide unit according to claim 4 , wherein the contact angle θ 1 is 1° to 20° greater than the contact angle θ 2 . 6. The linear motion guide unit according to claim 3 , wherein the contact angle θ 1 is 1° to 20° greater than the contact angle θ 2 . 7. The linear motion guide unit according to claim 1 , wherein in the load-carrying race first portion, the plurality of rolling elements contact the pair of second rolling surface at two points, and each of the pair of second surfaces containing the respective contact points is a flat surface extending in the longitudinal direction of the rail. 8. The linear motion guide unit according to claim 1 , wherein the contact angle θ 1 is 1° to 20° greater than the contact angle θ 2 .