Manufacture method of liquid supply member and manufacture apparatus

What is claimed is: 1. A manufacture method of a liquid supply member configured by a plurality of constituting components including first and second constituting components for forming a liquid supply path between the first constituting component and the second constituting component, comprising: a first step of injection-molding the first constituting component between a first position of a first mold and a first position of a second mold and injection-molding the second constituting component between a second position of the first mold and a second position of the second mold; a second step of opening the first mold and the second mold so that the first position of the first mold has the first constituting component and the second position of the second mold has the second constituting component to subsequently move the first mold relative to the second mold so that the first constituting component is opposed to the second constituting component; a third step of closing the first mold and the second mold so that a first region surrounding a part in which the liquid supply path is formed in the first constituting component and a second region surrounding a part in which the liquid supply path is formed in the second constituting component are abutted to each other; and a fourth step of allowing molten resin to flow to an outer side of the first and second regions, wherein in the third step, one of the first region and the second region is pushed to the other when the first mold and the second mold are closed, and wherein: D 1 +D 2 >D 3 , where, in a state prior to the closing of the first mold and the second mold in the third step, D 1 is a distance between the first region and a first face of the first mold abutted to a region at an opposite face of the first region in the first constituting component, and D 2 is a distance between the second region and a second face of the second mold abutted to a region at an opposite side of the second region in the second constituting component, and where, in a state where the first mold and the second mold are closed in the third step, D 3 is a distance between the first face and the second face. 2. The manufacture method of the liquid supply member according to claim 1 , wherein in the third step, 1 ≤W /( D 1 +D 2 −D 3)≤30, where W is a width of an abutted part of the first and second regions in a width direction of the liquid supply path. 3. The manufacture method of the liquid supply member according to claim 1 , wherein in the third step, 1.5 ≤W /( D 1 +D 2− D 3)≤20, where W is a width of an abutted part of the first and second regions in a width direction of the liquid supply path. 4. The manufacture method of the liquid supply member according to claim 1 , wherein at least one of the first region and the second region includes a corner positioned at an abutted part of the first and second regions. 5. The manufacture method of the liquid supply member according to claim 1 , wherein the first constituting component and the second constituting component respectively include a third region and a fourth region abutted to each other so as to define, when the first mold and the second mold are closed in the third step, an outer shape of the molten resin flown in the fourth step. 6. The manufacture method of the liquid supply member according to claim 1 , wherein the first constituting component and the second constituting component respectively include a third region and a fourth region abutted to each other so as to define, when the first mold and the second mold are closed in the third step, an outer shape of the molten resin flown in the fourth step, and wherein: Dl+D 2 −D 3 >E 1 +E 2 −E 3 , where, in a state prior to the closing of the first mold and the second mold in the third step, El is a distance between the third region and a third face of the first mold abutted to a region at an opposite side of the third region in the first constituting component, and E 2 is a distance between the fourth region and a fourth face of the second mold abutted to a region at an opposite side of the fourth region in the second constituting component, and where, in a state where the first mold and the second mold are closed in the third step, E 3 is a distance between the third face and the fourth face. 7. The manufacture method of the liquid supply member according to claim 1 , wherein the plurality of constituting components includes a third constituting component, and wherein the third constituting component is attached to be abutted to a first receiving face formed on the first constituting component and a second receiving face formed on the second constituting component, respectively. 8. A manufacture apparatus of a liquid supply member configured by a plurality of constituting components including first and second constituting components for forming a liquid supply path between the first constituting component and the second constituting component, comprising: a first mold and a second mold; a molding unit of injection-molding the first constituting component between a first position of the first mold and a first position of the second mold and injection-molding the second constituting component between a second position of the first mold and a second position of the second mold; a moving unit of opening the first mold and the second mold so that the first position of the first mold has the first constituting component and the second position of the second mold has the second constituting component to subsequently move the first mold relative to the second mold so that the first constituting component is opposed to the second constituting component; a mold-closing unit of closing the first mold and the second mold so that a first region surrounding a part in which the liquid supply path is formed in the first constituting component and a second region surrounding a part in which the liquid supply path is formed in the second constituting component are abutted to each other; and a unit of allowing molten resin to flow to the outer side of the first and second regions, wherein the mold-closing unit pushes one of the first region and the second region to the other when the first mold and the second mold are closed, and wherein the molding unit injection-molds the first and second constituting components so that a relationship D 1 +D 2 >D 3 is established, where, in a state after the first and second constituting components are injection-molded and before the first and second molds are closed, D 1 is a distance between the first region and a first face of the first mold abutted to a region at an opposite side of the first region in the first constituting component, and D 2 is a distance between the second region and a second face of the second mold abutted to a region at an opposite side of the second region in the second constituting component, and where, in a state after the first and second constituting components are injection-molded and while the first and second molds are being closed, D 3 is a distance between the first face and the second face in a direction along which the first mold and the second mold are closed. 9. A manufacture method of a liquid supply member configured by a plurality of constituting components including first and second constituting components for forming a liquid supply path between the first constituting component and the second constituting component, comprising: a step of using a pair of a first mold and a second mold to injection-mold the first and second constituting components to subsequently move the first and second molds relative to each other so as to be opposed to the first and second constituting components and closing the fi