Heat shrinkable film and preparation method thereof

The invention claimed is: 1. A heat shrinkable film, which comprises a polyester resin, wherein a maximum expansion rate in direction perpendicular to main shrinking direction of the heat shrinkable film is 5 to 12%; wherein the polyester resin comprises a dicarboxylic acid component and a diol component, and the diol component comprises diethylene glycol and neopentyl glycol; wherein content of diethylene glycol is 5 to 15% by mole based on the total number of moles of the diol component, and content of neopentyl glycol is 22 to 30% by mole based on the total number of moles of the diol component; and wherein heat shrinkage characteristics of the heat shrinkable film in the direction perpendicular to the main shrinkage direction satisfy the following Relationships 1b and 2b: Relationship 1b −8%≤ΔT X−Y ≤−1%, wherein X is 70 and Y is 65, Relationship 2b 0.2%≤ΔT X−Y ≤1%, wherein X is 100 and Y is 95, wherein ΔT X−Y is a value obtained by subtracting a heat shrinkage rate of the heat shrinkable film in the direction perpendicular to the main shrinkage direction after the heat shrinkable film is immersed in a water bath for 10 seconds at Y° C. from a heat shrinkage rate of the heat shrinkable film in the direction perpendicular to the main shrinkage direction after the heat shrinkable film is immersed in a water bath for 10 seconds at X° C. 2. The heat shrinkable film of claim 1 , wherein the maximum expansion rate of the heat shrinkable film is present between 70° C. and 90° C. when the heat shrinkage of the heat shrinkable film in the direction perpendicular to the main shrinkage direction is measured at an interval of 5° C. between 50° C. and 100° C. 3. The heat shrinkable film of claim 1 , whose heat of crystallization (ΔHc) as measured by differential scanning calorimetry (DSC) is 0 to 30 J/g. 4. The heat shrinkable film of claim 1 , which satisfies that T 75 is −12 to 0%, that T 80 is −15 to 0%, that T 85 is −10 to 0%, wherein T 75 , T 80 , and T 85 each refer to a heat shrinkage rate in the direction perpendicular to the main shrinkage direction after the heat shrinkable film is immersed in a water bath for 10 seconds at 75° C., 80° C., and 85° C., respectively. 5. A process for preparing a heat shrinkable film according to claim 1 , which comprises: (a) preparing a polyester resin composition, wherein the polyester resin comprises a dicarboxylic acid component and a diol component, and the diol component comprises diethylene glycol and neopentyl glycol, and wherein the content of diethylene glycol is 5 to 15% by mole based on the total number of moles of the diol component, and the content of neopentyl glycol is 22 to 30% by mole based on the total number of moles of the diol component; (b) extruding the composition to obtain an unstretched sheet; (c) preheating the unstretched sheet at a preheating temperature (T1) of 100 to 110° C.; (d) stretching the preheated unstretched sheet in one direction to obtain a stretched sheet; (e) thermally treating the stretched sheet at a thermal treatment temperature (T2) of 70 to 98° C.; and (f) cooling the thermally treated and stretched sheet to prepare the heat shrinkable film, wherein a maximum expansion rate in direction perpendicular to main shrinking direction of the heat shrinkable film is 5 to 12%; wherein heat shrinkage characteristics of the heat shrinkable film in the direction perpendicular to the main shrinkage direction satisfy the following Relationships 1b and 2b: Relationship 1b −8≤ΔT X−Y ≤−1%, wherein X is 70 and Y is 65, Relationship 2b 0.2≤ΔT X−Y ≤1%, wherein X is 100 and Y is 95 wherein ΔT X−Y is a value obtained by subtracting a heat shrinkage rate of the heat shrinkable film in the direction perpendicular to the main shrinkage direction after the heat shrinkable film is immersed in a water bath for 10 seconds at Y° C. from a heat shrinkage rate of the heat shrinkable film in the direction perpendicular to the main shrinkage direction after the heat shrinkable film is immersed in a water bath for 10 seconds at X° C. 6. The process for preparing a heat shrinkable film of claim 5 , wherein the extrusion (b) is carried out at 260 to 300° C. 7. The process for preparing a heat shrinkable film of claim 5 , wherein T1-T2 is 10 to 40° C. 8. The process for preparing a heat shrinkable film of claim 5 , wherein the preheating (c) is carried out for 0.01 to 1 minute. 9. The process for preparing a heat shrinkable film of claim 5 , wherein the stretching (d) is carried out at a stretching ratio of 3 to 5 times in one direction. 10. The process for preparing a heat shrinkable film of claim 5 , which further comprises printing on the heat shrinkable film.