Heat-shrinkable multilayer film

The invention claimed is: 1. A packaging bag comprising a heat-shrinkable multilayer film, wherein the heat-shrinkable multilayer film comprises: an outer surface layer (A) comprising a heat-resistant thermoplastic resin; an intermediate layer (B) comprising a polyamide-based resin; and an inner surface layer (D) comprising an ethylene-based copolymer, wherein the ethylene-based copolymer comprises ethylene-vinyl acetate copolymer, the packaging bag is formed of the heat-shrinkable multilayer film so that the inner surface layer (D) forms an inner wall of the packaging bag to contain fresh meat and the inner surface layer (D) directly contacts the fresh meat, the heat-shrinkable multilayer film is produced by a method comprising the steps of: co-extruding a plurality of melted thermoplastic resins in tubular form from a number of extruders corresponding to a number of layers of the the multilayer film, to form a tubular body having the outer surface layer (A), the intermediate layer (B), and the inner surface layer (D); water-cooling the tubular body to not greater than a melting point of a primary resin contained in each of the layers; reheating the tubular body using 88 to 90° C. hot water; stretching the tubular body 250% to 400% in a vertical direction and a circumferential direction while pulling the tubular body in the vertical direction while inserting fluid inside the tubular body, to form a biaxially stretched tubular film; and performing relaxation heat treatment using 60 to 98° C. steam or hot water from a side nearest the outer surface layer (A) of the biaxially stretched tubular body that has been re-formed by inserting fluid inside of the folded film such that respective relaxation ratios in the vertical direction and the circumferential direction are from 2 to 25%, and the ethylene-based copolymer of the inner surface layer (D) has a melting point measured by a differential scanning calorimeter in conformance with JIS K7121 of 80 to 90° C., so that i) the inner surface layers (D) are not fused to each other during production of the multilayer film and ii) the inner surface layers (D) of the packaging bag are adhered to each other and the packaging bag has a self-welding strength of not less than 10 N/15 mm, the self-welding strength being an adhesion strength of the inner surface layer (D) at an edge of the packaging bag in which the meat is contained. 2. The packaging bag according to claim 1 , wherein a gas barrier layer (C) is inserted between the outer surface layer (A) and the inner surface layer (D). 3. The packaging bag according to claim 2 , wherein the gas barrier layer (C) comprises an ethylene-vinyl alcohol copolymer. 4. The packaging bag according to claim 1 , wherein the heat-resistant thermoplastic resin that constitutes the outer surface layer (A) comprises a polyester-based resin or a polyamide-based resin. 5. The packaging bag according to claim 1 , wherein the self-welding strength of the inner surface layer is not less than 15 N/15 mm. 6. The packaging bag according to claim 1 , wherein the intermediate layer (B) comprises a resin composition of 60 to 95 mass % of polyamide 6 polymer, polyamide 6-66 copolymer, polyamide 6-12 copolymer, or polyamide 6-66-12 copolymer, and 5 to 40 mass % of polyamide 6I-6T copolymer. 7. The packaging bag according to claim 1 , wherein the inner surface layer (D) comprises the ethylene-vinyl acetate copolymer of which a vinyl acetate content is from 15 to 25 mass %. 8. The packaging bag according to claim 1 , wherein the heat-resistant thermoplastic resin of the outer surface layer (A) is a copolymer polyester comprising a polycondensate of isophthalic acid and terephthalic acid with ethylene glycol. 9. The packaging bag according to claim 1 , wherein the ethylene-based copolymer that constitutes the inner surface layer (D) has a crystal melting enthalpy ratio at specified temperature 80° C. measured by a differential scanning calorimeter in conformance with JIS K7121 of not less than 50%. 10. The packaging bag according to claim 1 , wherein the intermediate layer (B) comprises a resin composition of 70 to 80 mass % of polyamide 6 polymer or polyamide 6-66 copolymer, and 20 to 30 mass % of polyamide 6I-6T copolymer. 11. The packaging bag according to claim 1 , wherein the heat-shrinkable multilayer film further comprises an inner layer (F) comprising a very-low-density linear polyethylene between the intermediate layer (B) and the inner surface layer (D). 12. The packaging bag according to claim 1 , wherein a thickness of the inner surface layer (D) is 10 to 150 μm. 13. A method for producing the packaging bag comprising the heat-shrinkable multilayer film described in claim 1 , wherein the heat-shrinkable multilayer film is produced by the method comprising the steps of: co-extruding the plurality of melted thermoplastic resins in tubular form from the number of extruders corresponding to the number of layers of the multilayer film, to form the tubular body having the outer surface layer (A) comprising the heat-resistant thermoplastic resin, the intermediate layer (B) comprising the polyamide-based resin, and the inner surface layer (D) comprising the ethylene-based copolymer; water-cooling the tubular body to not greater than the melting point of the primary resin contained in each of the layers; reheating the tubular body using 88 to 90° C. hot water; stretching the tubular body 250% to 400% in the vertical direction and the circumferential direction while pulling the tubular body in the vertical direction while inserting fluid inside the tubular body, to form the biaxially stretched tubular film; and performing relaxation heat treatment using 60 to 98° C. steam or hot water from the side nearest the outer surface layer (A) of the biaxially stretched tubular body that has been re-formed by inserting fluid inside of the folded film such that respective relaxation ratios in the vertical direction and the circumferential direction are from 2 to 25%. 14. A method for producing a packaged fresh meat product, the method comprising the steps of: putting the fresh meat in the packaging bag described in claim 1 , wherein the packaging bag is hollow and cylindrical, and has a seal portion at one end and an open edge at the other end while leaving an excess region near the open end; forming a seal portion on the open edge while evacuating an interior of the bag, to perform vacuum packaging; and causing hot water to act on the vacuum package, to heat-shrink the packaging bag and self-weld the inner surface layers (D) that form the excess region with each other. 15. The packaged fresh meat product formed by the method described in claim 14 . 16. A method for removing the fresh meat product from the packaged fresh meat product described in claim 15 , the method comprising the steps of: after the packaged fresh meat product has been stored frozen, cutting open the excess region of the bag near the fresh meat filled region; and removing the fresh meat.