Glass temperature detecting system, window fog detecting system, air-conditioning system for vehicles, and window fog detecting method

What is claimed is: 1. A glass temperature detecting system for detecting a temperature of an inner surface of a windshield of a vehicle, the glass temperature detecting system comprising: a contact temperature sensor attached to a printed portion on an upper-side periphery of the windshield on a driver's seat side of a center in a width direction of the windshield, wherein ceramic print is applied to the printed portion where the contact temperature sensor is attached; a solar radiation sensor arranged to detect an amount of solar radiation; and a first correction section that corrects a detected value of the contact temperature sensor for a difference in temperature between the printed portion where the ceramic print is applied and a non-printed portion where the ceramic print is not applied, to obtain a corrected detected value representing a temperature of an inner surface of the non-printed portion, wherein the first correction section comprises: a first correction value calculator that determines a correction value as a function of the amount of solar radiation detected by the solar radiation sensor; and a first adder that adds the correction value determined by the first correction value calculator to the detected value of the contact temperature sensor to obtain the corrected detected value. 2. A window fog detecting system for detecting fog on a windshield of a vehicle, comprising: the glass temperature detecting system according to claim 1 ; a humidity detection device which detects a humidity of air in a vicinity of the inner surface of the windshield as a detected value; and a judging device which judges a presence of fog on the windshield, on a basis of the corrected detected value of the glass temperature detecting system and the detected value of the humidity detection device. 3. An air-conditioning system for a vehicle comprising: the window fog detecting system according to claim 2 ; a defogging device which defogs the windshield by using conditioned air blown out from a defroster outlet port; and a control device which controls the defogging device according to a detection result of the window fog detecting system. 4. A glass temperature detecting system according to claim 1 , wherein the contact temperature sensor is entirely placed on the driver's seat side of the center in the width direction of the windshield. 5. A glass temperature detecting system according to claim 1 , wherein no portion of the contact temperature sensor is not placed on the driver's seat side of the center in the width direction of the windshield. 6. A glass temperature detecting system for detecting a temperature of an inner surface of a windshield of a vehicle, the glass temperature detecting system comprising: a contact temperature sensor attached to a printed portion on an upper-side periphery of the windshield on a driver's seat side of a center in a width direction of the windshield, wherein ceramic print is applied to the printed portion where the contact temperature sensor is attached; a flow rate sensor arranged to detect a flow rate of air blown out from a defroster outlet port; an outlet air temperature sensor arranged to detect an outlet air temperature of air blown out from the defroster outlet port; and a correction section which corrects a detected value of the contact temperature sensor to obtain a corrected detected value representing the temperature of the inner surface of the windshield, wherein the correction section comprises: a correction value calculator that determines a correction value as a function of the flow rate detected by the flow rate sensor and the outlet air temperature detected by the outlet air temperature sensor; and an adder that adds the correction value determined by the correction value calculator to the detected value of the contact temperature sensor to obtain the corrected detected value. 7. A glass temperature detecting system for detecting a temperature of an inner surface of a windshield of a vehicle, the glass temperature detecting system comprising: a contact temperature sensor attached to a printed portion, where ceramic print is applied, on an upper-side periphery of the windshield, such that the contact temperature sensor is in direct contact with an inner surface of the ceramic print; a solar radiation sensor arranged to detect an amount of solar radiation; and a first correction section that corrects a detected value of the contact temperature sensor for a difference in temperature between the printed portion where the ceramic print is applied and a non-printed portion where the ceramic print is not applied, to obtain a corrected detected value representing a temperature of an inner surface of the non-printed portion, wherein the first correction section comprises: a first correction value calculator that determines a correction value as a function of the amount of solar radiation detected by the solar radiation sensor; and a first adder that adds the correction value determined by the first correction value calculator to the detected value of the contact temperature sensor to obtain the corrected detected value. 8. A glass temperature detecting system according to claim 7 , wherein the contact temperature sensor is entirely placed on the driver's seat side of the center in the width direction of the windshield. 9. A glass temperature detecting system according to claim 7 , wherein no portion of the contact temperature sensor is not placed on the driver's seat side of the center in the width direction of the windshield. 10. A glass temperature detecting system for detecting a temperature of an inner surface of a windshield of a vehicle, the glass temperature detecting system comprising: a contact temperature sensor attached to a printed portion, where ceramic print is applied, on an upper-side periphery of the windshield, such that the contact temperature sensor is in direct contact with an inner surface of the ceramic print; a flow rate sensor arranged to detect a flow rate of air blown out from a defroster outlet port; an outlet air temperature sensor arranged to detect an outlet air temperature of air blown out from the defroster outlet port; and a correction section which corrects a detected value of the contact temperature sensor to obtain a corrected detected value representing the temperature of the inner surface of the windshield, wherein the correction section comprises: a correction value calculator that determines a correction value as a function of the flow rate detected by the flow rate sensor and the outlet air temperature detected by the outlet air temperature sensor; and an adder that adds the correction value determined by the correction value calculator to the detected value of the contact temperature sensor to obtain the corrected detected value. 11. A window fog detecting system for detecting fog on a windshield of a vehicle, the window fog detecting system comprising: the glass temperature detecting system according to claim 7 ; a humidity detection device which detects a humidity of air in a vicinity of the inner surface of the windshield as a detected value; and a judging device which judges a presence of fog on the windshield, on a basis of the corrected detected value of the glass temperature detecting system and the detected value of the humidity detection device. 12. An air-conditioning system for a vehicle comprising: the window fog detecting system according to claim 11 ; a defogging device which defogs the windshield by using conditioned air blown out from a defroster outlet port; and a control device which controls the defogging device according to a detecti