Blade segment for refiner

We claim: 1. A refiner for refining fibrous material, comprising: at least two blade segments, wherein each of the at least two blade segments further comprises: an inner end edge and an outer end edge; a first side edge and a second side edge opposite to the first side edge, the first side edge and the second side edge extending between the inner end edge and the outer end edge; wherein the blade segment has a refining surface comprising blade bars and blade grooves therebetween forming a front surface of the blade segment, and a rear surface opposite the front surface wherein a whole thickness of the blade segment is defined between the front surface and the rear surface; wherein the rear surface is arranged to mount to the refiner; and wherein at least one of the first side edge and the second side edge of the blade segment has portions forming at least one opening between the front surface and the rear surface that extends from the at least one of the first side edge and the second side edge toward the opposite second side edge or first side edge such that one of the at least one opening extends through the whole thickness of the blade segment, wherein the at least one opening is arranged to conduct fibrous material through the whole thickness of the blade segment from a source of fibrous material to the refining surface; and wherein when the at least two blade segments are assembled with the first side edge of one of the at least two blade segments abutting the second side edge of another of the at least two blade segments to form an abutment, the one of the at least one opening of one of the at least two blade segments which extends through the whole thickness of the blade segment is located at the abutment; and at least one feed groove on the refining surface of one of the at least two blade segments, the at least one feed groove communicating with and extending away from the one of the at least one opening and the at least one feed groove cutting across the blade grooves and bars on the refining surface of the one of the blade segments of the at least two blade segments, the at least one feed groove having a depth greater than the blade grooves and wherein the at least one feed groove extends obliquely in a running direction toward both the outer end edge and the side edge of the one of the at least two blade segments. 2. The refiner of claim 1 wherein one of the at least one opening is on the second side edge of one of the at least two blade segments and the at least one feed groove is on another of the at least two blade segments and extends obliquely toward both the outer end edge and the second side edge of the other of the at least two blade segments. 3. The refiner of claim 1 wherein a radial direction is defined extending from the inner end edge toward the outer end edge of each of the at least two blade segments and wherein the at least one opening is on the second side edge of one of the at least two blade segments and the at least one feed groove extends from the first side edge of the same one of the at least two blade segments at least partly toward the second side edge of the blade segment and wherein an end of one of the at least one feed groove at the first side edge is arranged at a radial position in the radial direction which corresponds to a radial position of one of the at least one opening at the second side edge. 4. The refiner of claim 1 wherein there are at least two openings on at least one of the first side edge and the second side edge of one of the at least two blade segments. 5. The refiner of claim 4 wherein the at least two openings are of different sizes. 6. The refiner of claim 5 , wherein the at least two openings comprise a larger opening and a smaller opening, the larger opening being larger than the smaller opening, wherein the larger opening is closer to the inner end edge on the same one of the at least two blade segments than is the smaller opening. 7. The refiner of claim 1 wherein a shape of the at least one opening of one of the at least two blade segments is selected from the group consisting of: a triangle, a rectangle, a semicircle, a square, a parallelogram, and a trapezium. 8. The refiner of claim 1 wherein the at least one feed groove on one of the at least two blade segments defines a depth, a width, and a running direction away from the at least one opening of the same one of the at least two blade segments and at least one of the depth and the width decreases in the running direction. 9. The refiner of claim 8 wherein the at least one feed groove comprises: a radially inner feed groove having a depth and a width; and a radially outer feed groove having a depth and a width, and wherein at least one of the inner feed groove depth and width is greater than the corresponding outer feed groove depth and width. 10. The refiner of claim 1 wherein the at least one feed groove is arranged to cross the blade grooves at an angle of 45-135 degrees. 11. The refiner of claim 1 wherein the at least one feed groove defines a running direction and is arranged to curve toward the outer end edge of one of the at least two blade segments. 12. The refiner of claim 1 wherein the at least one feed groove has a bottom profile of the at least one feed groove and wherein the bottom profile has a shape selected from the group consisting of: a semicircle, a semi-square, a semi-rectangle, and a triangle. 13. The refiner of claim 1 wherein the at least one opening of one of the at least two blade segments has an edge below the respective refining surface and wherein there is, extending from the edge, a bevel which rises toward the refining surface. 14. The refiner of claim 1 wherein the at least one opening of one of the at least two blade segments has a first edge below the respective refining surface and extending from the first edge a first bevel which rises toward the refining surface, and wherein the at least one opening has a second edge below the refining surface and extending from the second edge, a second bevel which rises toward a portion of the refining surface which forms an end of the at least one feed groove. 15. The refiner of claim 1 wherein a width of the blade bars is arranged to increase in a running direction toward the outer end edge of one of the at least two blade segments. 16. The refiner of claim 1 wherein a radial direction is defined extending from the inner end edge toward the outer end edge of each of the at least two blade segments, and the respective blade bars have a width which increases from one bar to the next in the radial direction toward the outer end edge. 17. The refiner of claim 1 wherein one of the at least one opening is on the first side edge of one of the at least two blade segments and one of the at least one feed groove extends from the one of the at least one opening at least partly toward the second side edge on the same one of the at least two blade segments. 18. The refiner of claim 1 wherein the at least one opening is on the second side edge of one of the at least two blade segments and the at least one feed groove is arranged extending from the first side edge of another of the at least two blade segments such that the at least one opening is on the one of the at least two blade segments and the at least one feed groove is on the other of the at least two blade segments. 19. The refiner of claim 1 wherein the at least one feed groove defines a depth and a width, and wherein at least one of the depth and the width decreases in the running direction.