Composite sheet and portable terminal having same

The invention claimed is: 1. A composite sheet comprising: a first heat insulation member having a plurality of fine pores to form air pockets for thermal insulation; a second heat insulation member which is laminated on the first heat insulation member, and which facilitates a horizontal direction transfer of heat conducted but suppresses a vertical direction transfer thereof; and a heat spreader which is laminated between the first insulation member and the second heat insulation member to thus disperse heat, wherein the first heat insulation member is a nanofiber web or a laminated structure of a nanofiber web and a nonwoven fabric, and the nanofiber web is formed of accumulated nanofibers made by an electrospinning process. 2. The composite sheet of claim 1 , wherein the second insulation member comprises a magnetic sheet having a ratio of a horizontal direction thermal conductivity with respect to a vertical direction thermal conductivity of 10:1 or more. 3. The composite sheet of claim 2 , wherein the second insulation member comprises a magnetic sheet having a specific resistivity of at least 100. 4. The composite sheet of claim 2 , wherein the magnetic sheet is a Fe-based amorphous alloy or a Co-based amorphous alloy. 5. The composite sheet of claim 4 , wherein the Fe-based amorphous alloy is a Fe—Si—B alloy or Fe—Si—B—Cu—Nb alloy. 6. The composite sheet of claim 4 , wherein the magnetic sheet is configured to include a plurality of fine pieces which are separated in a fine size and disposed adjacent, and an adhesive member which is attached on any one or either side of upper and lower portions of the magnetic sheet, in which gaps between the plurality of fine pieces are insulated in whole or in part. 7. The composite sheet of claim 1 , wherein the heat spreader is a metal thin plate of a thermal conductivity of 200 W/m·K or more. 8. The composite sheet of claim 7 , wherein the metal thin plate is made of Cu or Al. 9. A composite sheet comprising: a heat spreader which disperses heat and radiates the heat; and a magnetic sheet which is laminated on the heat spreader and is configured to include a plurality of fine pieces which are separated in a fine size and disposed adjacent, and an adhesive member which is attached on any one or either side of upper and lower portions of the magnetic sheet, in which gaps between the plurality of fine pieces are insulated in whole or in part, to thus secondarily diffuse heat conducted from the heat spreader and suppress a vertical direction transfer of the heat. 10. The composite sheet of claim 9 , wherein the magnetic sheet is formed of an amorphous alloy or a nanocrystalline alloy. 11. The composite sheet of claim 9 , wherein the magnetic sheet has a ratio of a horizontal direction thermal conductivity with respect to a vertical direction thermal conductivity of 10:1. 12. The composite sheet of claim 9 , wherein the magnetic sheet has a specific resistivity of at least 100. 13. The composite sheet of claim 9 , wherein the heat spreader is a metal thin plate of a thermal conductivity of 200 W/m·K or more. 14. The composite sheet of claim 13 , wherein the metal thin plate is made of Cu or Al. 15. The composite sheet of claim 9 , wherein thickness of the magnetic sheet is 5 μm to 50 μm. 16. A mobile terminal comprising: a terminal main body; a removable rear cover on a rear surface of the terminal main body; a display unit which is exposed to the terminal main body; and a composite sheet adhered to an inner side of the rear cover or a rear surface of the display unit, wherein the composite sheet comprises: a heat spreader which disperses heat and radiates the heat; and a magnetic sheet which is laminated on the heat spreader and is configured to include a plurality of fine pieces which are separated in a fine size and disposed adjacent, and an adhesive member which is attached on any one or either side of upper and lower portions of the magnetic sheet, in which gaps between the plurality of fine pieces are insulated in whole or in part, to thus secondarily diffuse heat conducted from the heat spreader and suppress a vertical direction transfer of the heat. 17. The mobile terminal of claim 16 , wherein the heat spreader is a Cu or a Al sheet, and the magnetic sheet is formed of an amorphous alloy or a nanocrystalline alloy.