Molded Object And Method For Manufacturing the Same

1 . A molded object having a non-woven fiber structure, the molded object comprising: a polyester-based fiber; and a binder, wherein the binder is a non-hygroscopic copolymer resin, all or a part of the polyester-based fiber is fused by the binder, wherein natural pores are included inside the molded object, and the molded object has apparent density of 0.5 g/cm 3 to 0.8 g/cm 3 . 2 . The molded object of claim 1 , which has flexural strength of 20 MPa or greater and tensile strength of 50 MPa to 80 MPa. 3 . The molded object of claim 1 , which has flexural modulus in a range of 1.0 GPa to 1.5 GPa, tension stiffness in a range of 1.0 GPa to 1.8 GPa, tensile elongation in a range of 10% to 30%, and peel-off strength in a range of 150 N to 200 N. 4 . The molded object of claim 1 , which has a weight change rate of less than 0.1% after keeping a constant temperature/constant humidity for 100 hours at a temperature of 85° C. and relative humidity of 85%. 5 . The molded object of claim 1 , which has a weight change rate of less than 0.08% after keeping a constant temperature/constant humidity for 100 hours at a temperature of 85° C. and relative humidity of 85%. 6 . The molded object of claim 1 , which has a flexural strength change rate of less than 10% after keeping a constant temperature/constant humidity for 100 hours at a temperature of 85° C. and relative humidity of 85%. 7 . The molded object of claim 1 , which has a flexural strength change rate of less than 5% after keeping a constant temperature/constant humidity for 100 hours at a temperature of 85° C. and relative humidity of 85%. 8 . The molded object of claim 1 , wherein the difference in the density of the 15% outermost portion of the molded object in the thickness direction and the density of the ±15% portion in the center of the molded object in the thickness direction is less than 3%, and the difference between the bonded fiber ratio of the 15% outermost portion of the molded object in the thickness direction and the bonded fiber ratio of the ±15% portion in the center of the molded object in the thickness direction is less than 10%. 9 . The molded object of claim 1 , wherein the difference in the density of the 15% outermost portion of the molded object in the thickness direction and the density of the ±15% portion in the center of the molded object in the thickness direction is less than 1%, and the difference between the bonded fiber ratio of the 15% outermost portion of the molded object in the thickness direction and the bonded fiber ratio of the ±15% portion in the center of the molded object in the thickness direction is less than 5%. 10 . The molded object of claim 1 , wherein the difference in the interfiber bonding ratio of the 15% outermost portion of the molded object in the thickness direction and the interfiber bonding ratio of the ±15% portion in the center of the molded object in the thickness direction is less than 10%. 11 . The molded object of claim 1 ,wherein the difference in the interfiber bonding ratio of the 15% outermost portion of the molded object in the thickness direction and the interfiber bonding ratio of the ±15% portion in the center of the molded object in the thickness direction is less than 5%. 12 . The molded object of claim 1 , which has a thermal conductivity (TC, W/m·K) and an apparent density (AD, g/cm 3 ) that satisfy equation 1 below. AD/TC≥8   [Equation 1] 13 . The molded object of claim 12 , wherein the molded object has the thermal conductivity of 0.03 to 0.075 W/m·K. 14 . The molded object of claim 1 , which has a ratio between major axis and minor axis of polyester-based fiber (L/D: Aspect Ratio) is a range of 1000 to 3000. 15 . The molded object of claim 1 , which has a ratio between major axis and minor axis of polyester-based fiber (L/D: Aspect Ratio) is a range of 1500 to 2500. 16 . The molded object of claim 1 , wherein the polyester-based fiber is any one or more selected from the group consisting of polyethylene terephthalate (PET), polytrimethylene terephthalate, polybutylene terephthalate and polyethylene naphthalate. 17 . The molded object of claim 1 , wherein the binder has a melting point of 160° C. or higher. 18 . The molded object of claim 1 , further comprising a sheath-core type bicomponent fiber including a core part of a polyester-based fiber; and a sheath part which is a non-hygroscopic copolymer resin surrounding the core part. 19 . The molded object of claim 18 , wherein the polyester-based fiber is any one or more selected from the group consisting of polyethylene terephthalate (PET), polytrimethylene terephthalate, polybutylene terephthalate and polyethylene naphthalate. 20 . A method for manufacturing a molded object comprising: a) preparing a non-woven fabric by mixing (A) a polyester-based fiber and (B) a sheath-core type bicomponent fiber including a core part of a polyester-based fiber and a sheath part that is a non-hygroscopic copolymer resin surrounding the core part, and then heating and pressurizing the result; b) installing the prepared non-woven fabric on a plurality of unwinding devices, and then moving to a heating press; and c) manufacturing a molded object by heating and pressurizing a plurality of the non-woven fabrics moved to the heating press under a temperature condition of 170° C. to 210° C. and a pressure condition of 1 MPa to 10 MPa. 21 . The method for manufacturing a molded object of claim 20 , further comprising, between b) and c), d) preheating for minutes to 10 minutes under a temperature condition of 160° C. to 210° C. 22 . The method for manufacturing a molded object of claim 20 , wherein, in a), (A) the polyester-based fiber and (B) the sheath-core type bicomponent fiber, including a core part of a polyester-based fiber and a sheath part that is a non-hygroscopic copolymer resin surrounding the core part, are mixed in a weight ratio of 1:99 to 70:30. 23 . The method for manufacturing a molded object of claim 20 , wherein the number of a plurality of the non-woven fabrics is from 2 to 10. 24 . The method for manufacturing a molded object of claim 20 , which is manufactured to a thickness of 5 mm to 7 mm. 25 . A device comprising the molded object of claim 1 , wherein the device is a structural member for a home appliance; an interior or exterior board for construction; an automotive interior or exterior material; an interior or exterior material for a train, ship, or airplane; a partition board; or an elevator structural member. 26 . A sandwich panel comprising the molded object of claim 1 .