Method for manufacturing a sandwich panel

The invention claimed is: 1. A method for manufacturing a resin sandwich panel including a resin core material disposed between two skin material sheets of resin, the method comprising: a step of preparing a reinforcement member having a recess formed to extend in a longitudinal direction over a predetermined length and open laterally, and a thermoplastic resin core material including a protrusion capable of being partially press-fit with respect to the recess in a longitudinal direction, the protrusion being disposed on a peripheral side surface portion of the thermoplastic resin core material; a step of disposing two thermoplastic resin sheets in molten state between a pair of split molds in such a manner as to extend beyond an annular pinch-off part formed at a peripheral edge portion of a cavity of each of the pair of split molds; a step of making the reinforcement member and the thermoplastic resin core material into an integral component by partially press-fitting the protrusion into the recess in the longitudinal direction, and positioning the integral component with respect to the thermoplastic resin sheet; and a step of integrating peripheral edge portions of the two thermoplastic resin sheets by welding inner surfaces of the two thermoplastic resin sheets along the pinch-off parts of the pair of split molds by moving the pair of split molds to a clamping position so as to sandwich the integral component between the two thermoplastic resin sheets in molten state, and face-to-face bonding the integral component to the corresponding skin material sheets. 2. The method of claim 1 , wherein during the press-fitting the protrusions are compressively deformed to form a contact surface that tightly contacts the inner surfaces of the recess. 3. The method of claim 1 , further comprising a step of including an inclined surface or a gradually curved surface at least on a distal end side of the protrusion with which the reinforcement member is press-fit, in a cross-section perpendicular to the longitudinal direction of the reinforcement member. 4. The method of claim 3 , further comprising a step of including, on the protrusions, a contact surface tightly contacting the inner surfaces of the recess, the contact surface being formed closer to the peripheral side surface portion from the inclined surface or the gradually curved surface. 5. The method of claim 1 , wherein the thermoplastic resin core material has a length equal to or greater than a predetermined length of the reinforcement member, and wherein the reinforcement member is press-fit, at an end portion thereof, so as not to protrude from the thermoplastic resin core material. 6. The method of claim 1 , further comprising a step of disposing the plurality of protrusions on each of the opposing surfaces. 7. The method of claim 6 , wherein the thermoplastic resin core material is a solid integral molded article made from foamed resin, wherein the protrusions of one of the opposing surfaces include a contact surface tightly contacting the inner surface on an upper end side of the recess, and the protrusions of the other of the opposing surfaces include a contact surface tightly contacting the inner surface on a lower end side of the recess, the contact surfaces having an interval set so as to be greater than at least an interval between the opposed inner surfaces of the recess, and wherein the contact surfaces of the plurality of protrusions have a height and/or area set so as to enable the protrusion to be laterally press-fit with respect to the recess within an expected dimensional tolerance range of thickness of the thermoplastic resin core material. 8. The method of claim 7 , further comprising a step of setting the height and area of the contact surfaces of the plurality of protrusions to prevent the protrusion from falling from the recess at a minimum dimensional tolerance, and so as to ensure the press-fitting of the protrusion into the recess at a maximum dimensional tolerance. 9. The method of claim 8 , further comprising a step of setting the thickness of the protrusion so that the opposing surfaces do not contact the inner surfaces of the recess at the time of press-fitting of the protrusion into the recess. 10. The method of claim 8 , wherein the thermoplastic resin core material is of split type, and wherein the reinforcement member includes a first recess with an opening on one side and a second recess with an opening on the other side between adjacent split portions of the thermoplastic resin core material. 11. The method of claim 10 , wherein the reinforcement member is an H-shaped extrusion reinforcement, and further comprising a step of: setting the opposing surfaces of the protrusion to be lower than the corresponding surfaces of the thermoplastic resin core material so that the thermoplastic resin core material and the reinforcement member become substantially flush when the thermoplastic resin core material is press-fit into the reinforcement member. 12. The method of claim 11 , further comprising: a step of disposing an abutting surface at a root portion of the protrusion, and forming a step with the abutting surface in cooperation with the opposing surfaces so as to abut on a side surface portion on a U-shaped opening portion side of the H-shaped extrusion reinforcement when the thermoplastic resin core material is press-fit into the reinforcement member. 13. The method of claim 12 , further comprising a step of forming the opposing surfaces in an inclined shape so that the interval of the opposing surfaces is decreased in a direction away from the abutting surface.