Soundproof member and production method thereof

The invention claimed is: 1. A soundproof member which comprises a polyurethane foam and is disposed apart from or at least partially in contact with a sound source, wherein the polyurethane foam has a surface layer on at least a part of the surface thereof, the surface layer is a layered part on the surface of the polyurethane foam whose density is higher than that of a core of the polyurethane foam, at least one side surface of the polyurethane foam facing the sound source has at least the surface layer in an open cell state, and the surface layer on at least the other side surface opposite to the one side surface is the surface layer in a closed cell state. 2. The soundproof member according to claim 1 , wherein the surface layer in a closed cell state has an air permeability (JIS K6400-7 B method: 2012/ISO 7231:2010) of 3 ml/cm 2 /s or less. 3. The soundproof member according to claim 1 , wherein the surface layer in a closed cell state has an average thickness of 3 μm or more. 4. The soundproof member according to claim 1 , wherein the soundproof member is disposed apart from the sound source, and the soundproof member is disposed on the non-sound source side of a partition member partitioning a space into a sound source side space having the sound source and a non-sound source side space, such that the partition member directly faces the one side surface of the polyurethane foam. 5. The soundproof member according to claim 4 , wherein in a space formed by a constitution member constituting the non-sound source side space, the soundproof member is used in a state that an outer peripheral part of the polyurethane foam and the constitution member are in contact with each other. 6. The soundproof member according to claim 5 , wherein the outer peripheral part of the polyurethane foam is substantially identical to a shape of the constitution member constituting the non-sound source side space. 7. The soundproof member according to claim 5 , wherein a size of the outer peripheral part of the polyurethane foam is larger than the space formed by the constitution member constituting the non-sound source side space. 8. The soundproof member according to claim 4 , wherein a shape of a surface of the partition member on the non-sound source side is substantially identical to a shape of at least a part of the one side surface of the polyurethane foam in the soundproof member. 9. The soundproof member according to claim 4 , wherein the soundproof member has a closed space between the partition member and the one side surface of the polyurethane foam. 10. The soundproof member according to claim 1 , wherein the soundproof member is disposed apart from the sound source, and covers at least a part of the sound source. 11. The soundproof member according to claim 1 , wherein the soundproof member is disposed at least partially in contact with the sound source, and covers at least a part of the sound source. 12. The soundproof member according to claim 11 , wherein the soundproof member has a closed space between the sound source and the one side surface of the polyurethane foam. 13. The soundproof member according to claim 10 , wherein the sound source is substantially identical to a shape of at least a part of the one side surface of the polyurethane foam in the soundproof member. 14. The soundproof member according to claim 1 , wherein the surface layer of the entire surface adjacent to the one side surface of the polyurethane foam is the surface layer in a closed cell state. 15. The soundproof member according to claim 1 , wherein a number of cells (JIS K6400-1:2004 Annex 1) of the surface layer in an open cell state is 20/25 mm to 100/25 mm, a number of cells (JIS K6400-1:2004 Annex 1) of the surface layer in a closed cell state is 0/25 mm to 18/25 mm, and a number of cells (JIS K6400-1:2004 Annex 1) of the core is 20/25 mm to 100/25 mm. 16. The soundproof member according to claim 1 , wherein a density of the polyurethane foam increases in order of core<sound source side<non-sound source side, and a number of cells of the polyurethane foam decreases in order of one side surface>core>the other side surface. 17. A method of disposing the soundproof member according to claim 1 , wherein the soundproof member is disposed apart from or at least partially in contact with the sound source. 18. A method of producing a soundproof member including a polyurethane foam having a surface layer on the surface thereof, which comprises coating a mold release agent onto a mold surface of a mold, pouring a raw material of polyurethane foam into the mold, and foaming the poured raw material, wherein the soundproof member is disposed apart from or at least partially in contact with a sound source, the surface layer is a layered part on the surface of the polyurethane foam whose density is higher than that of a core of the polyurethane foam, a mold release agent containing at least linear hydrocarbon wax is coated onto at least a mold surface forming a one side surface of the polyurethane foam facing the sound source, a mold release agent containing at least branched chain hydrocarbon wax is coated onto at least a mold surface forming the other side surface of the polyurethane foam opposite to the one side surface the surface layer in an open cell state is formed on at least a part of the one side surface of the polyurethane foam on the mold surface coated with the mold release agent containing at least linear hydrocarbon wax, and the surface layer in a closed cell state is formed on the other side surface of the polyurethane foam opposite to the one side surface on the mold surface coated with the mold release agent containing branched chain hydrocarbon wax. 19. The soundproof member according to claim 11 , wherein the sound source is substantially identical to a shape of at least a part of the one side surface of the polyurethane foam in the soundproof member.