Clothes treating apparatus having drying function

What is claimed is: 1. A clothes treating apparatus having a drying function comprising: a cabinet adapted to receive a rotatable drum therein, the cabinet defining an appearance of the apparatus; a module part mounted onto an outer surface of the cabinet, the module part comprising a heater assembly configured to heat air to be supplied to the rotatable drum, a blower assembly configured to discharge air inside the rotatable drum, and a housing configured to accommodate the heater assembly and the blower assembly; and a link unit configured to connect the module part onto a rear side of the cabinet, wherein the heater assembly comprises: a heater casing including a front surface, a rear surface, side surfaces, a lower surface, and an upper surface, wherein the upper surface is, in part or fully, inclined and the heater casing includes air inlet ports formed through the lower surface and the rear surface, respectively, a heater module disposed within the heater casing and configured to heat air introduced into the heater casing, through the air inlet ports, a thermostat disposed on an inner side of the upper surface of the heater casing and configured to come in direct contact with the heated air from the heater module and to turn the heater module on or off according to temperature of air in the heater casing, a slit formed through the upper surface of the heater casing and configured to introduce external air into the heater casing to form a blocking flow of the external air, wherein based on the forming of the blocking flow, the heated air from the heater module is blocked from contacting the thermostat, and a passage guide formed beneath the slit on the upper surface of the heater casing and extending from a lower edge of the slit toward a lower side of the thermostat to guide a flow path of the blocking flow of the external air introduced through the slit, wherein the front surface of the heater casing is provided with a through hole through which heated air from the heater module is supplied into the rotatable drum via the upper surface of the heater casing, and wherein the heater assembly further includes a middle plate located between the heater module and the through hole of the front surface such that the air heated by the heater module flows along the upper surface of the heater casing and supplies into the drum through the through hole. 2. The apparatus of claim 1 , wherein external air introduced into the housing is transferred to the heater assembly through the air inlet ports. 3. The apparatus of claim 1 , further comprising a filter provided to a front lower side of the drum, wherein air used for drying in the drum is discharged to a front lower side of the drum, and then transferred to the blower assembly after removal of foreign materials by the filter. 4. The apparatus of claim 1 , wherein the passage guide has a shape whose width is reduced as extending toward the thermostat. 5. The apparatus of claim 1 , wherein the housing comprises at least one air inlet port to supply external air into the heater assembly. 6. The apparatus of claim 1 , further comprising an exhaust duct to allow air discharged from the drum to flow into the blower assembly. 7. The apparatus of claim 6 , wherein the blower assembly comprises: a blower casing; a blower fan disposed within the blower casing; and an exhaust port to discharge air flowed through the blower fan to the outside, wherein the air discharged from the drum via the exhaust duct is discharged through the exhaust port by the blower fan. 8. The apparatus of claim 7 , wherein air discharged externally through the blower assembly is transferred to the heater assembly by a bypass unit disposed between the exhaust port and the heater assembly. 9. The apparatus of claim 8 , wherein the bypass unit comprises a bypass duct to connect the exhaust port with the heater casing. 10. The apparatus of claim 9 , wherein the bypass unit further comprises a first connector to connect a first end of the bypass duct onto the exhaust port to thereby allow communication between the bypass duct and the exhaust port and the bypass unit further comprises a second connector to connect a second end of the bypass duct onto the heater casing to thereby allow communication between communicate the bypass duct and the heater casing. 11. The apparatus of claim 10 , wherein the bypass unit further comprises a distributing member to distribute air transferred from the bypass duct to the heater module. 12. The apparatus of claim 11 , wherein the distributing member comprises a plurality of distribution plates to guide air introduced into the heater casing via the second connector to be evenly distributed to the heater module.