Method for manufacturing liquid-ejecting head

What is claimed is: 1. A method for manufacturing a liquid-ejecting head that comprises an ejection-element section that ejects liquid and a liquid-supply section in which a liquid path for guiding the liquid to the ejection-element section is formed; wherein a main mold, and a die slide mold that can slide inside the main mold and in which a mold for forming a first part of the liquid-supply section and a mold for forming a second part of the liquid-supply section are arranged in a direction of the slide are prepared; the method including: a first molding process for forming the first part and the second part by injecting resin into the mold for forming the first part and into the mold for forming the second part with the main mold in a closed state; a sliding process for sliding the die slide mold and positioning and aligning the first part and the second part in the direction of the slide; and a second molding process for forming the liquid-supply section by bringing the first part and the second part into contact by inserting a convex section of the second part into an opening in the first part, and then injecting resin for connecting the first part and the second part together; wherein in the second molding process, a distance between an area where the resin is injected and the opening is larger than a distance between an inner wall surface of the opening and an outer wall surface of the convex section. 2. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein the inner wall surface of the opening and the outer wall surface of the convex section are parallel in a direction of the insertion. 3. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein the inner wall surface of the opening and the outer wall surface of the convex section are inclined with respect to a direction of the insertion. 4. The method for manufacturing a liquid-ejecting head according to claim 3 , wherein a direction of the inclination of the inner wall surface of the opening, and a direction of the inclination of the outer wall surface of the convex section are a same direction with respect to the direction of the insertion. 5. The method for manufacturing a liquid-ejecting head according to claim 3 , wherein a direction of the inclination of the inner wall surface of the opening, and a direction of the inclination of the outer wall surface of the convex section are different directions with respect to the direction of the insertion. 6. The method for manufacturing a liquid-ejecting head according to claim 3 , wherein the convex section is in contact with an edge of the opening. 7. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein grooves are formed in the convex section. 8. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein a tip end of the convex section and an entrance of the opening are arranged at nearly a same position in a direction of the insertion. 9. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein a direction of the insertion is in a direction of gravity. 10. The method for manufacturing a liquid-ejecting head according to claim 1 , wherein a wall thickness of the first part and a length of the convex section of the second part in a direction of the insertion are equal. 11. A method for manufacturing a liquid-supply member that comprises a liquid path for supplying liquid, wherein a main mold, and a die slide mold that can slide inside the main mold and in which a mold for forming a first part of the liquid-supply member and a mold for forming a second part of the liquid-supply member are arranged in a direction of the slide are prepared; the method including: a first molding process for forming the first part and the second part by injecting resin into the mold for forming the first part and into the mold for forming the second part with the main mold in a closed state; a sliding process for sliding the die slide mold and positioning and aligning the first part and the second part in the direction of the slide; and a second molding process for forming the liquid-supply member by bringing the first part and the second part into contact by inserting a convex section of the second part into an opening of the first part, and then injecting resin for connecting the first part and the second part together; wherein in the second molding process, a distance between an area where the resin is injected and the opening is larger than a distance between an inner wall surface of the opening and an outer wall surface of the convex section.