Surveying Instrument

1 . A surveying instrument, comprising a GNSS device, a frame unit rotatable in a horizontal direction, a telescope unit as mounted rotatably in a vertical direction on said frame unit, an image acquiring unit installed on said telescope unit, a driving unit for rotating and driving said frame unit and said telescope unit, a horizontal angle measuring unit for detecting a horizontal angle of said frame unit, a vertical angle measuring unit for detecting a vertical angle of said telescope unit, and a control device having a reference clock signal generating unit for producing a reference clock signal, wherein said control device produces a time signal to indicate a standard time from a signal acquired from said GNSS device, puts a time stamp on said time signal based on said reference clock signal, associates said time signal with said reference clock signal, measures a horizontal angle by said horizontal angle measuring unit at a moment when said telescope unit sights the sun and acquires an image signal by said image acquiring unit, puts a time stamp on said image signal based on said reference clock signal, calculates a standard time at a time of image acquisition based on a time stamp of said image signal and said reference clock signal, calculates an azimuth angle of the sun at said standard time based on a latitude and a longitude of a point where said surveying instrument is installed and a standard time at the time of image acquisition, and updates a horizontal angle as measured by said horizontal angle measuring unit by said azimuth angle. 2 . A surveying instrument according to claim 1 , wherein said telescope unit is stopped at a time of completion of sighting, said control device calculates a positional deviation between an image of the sun in an image as acquired and a sighting position, calculates a horizontal deviation angle of an optical axis of said telescope unit based on said positional deviation, and corrects said azimuth angle to be updated by said horizontal deviation angle. 3 . A surveying instrument according to claim 1 , wherein said surveying instrument has a tracking function, said control device acquires an image by said image acquiring unit and measures a horizontal angle a plurality of times by said horizontal angle measuring unit under a condition where a tracking operation is continued, puts on a time stamp with respect to an image signal and each horizontal angle measuring signal and calculates the standard time at the time of image acquisition from the time stamp of said reference clock signal and said image signal, calculates an azimuth angle of the sun at the standard time, calculates a horizontal angle at the time of image acquisition based on the time stamp of each horizontal angle measuring signal, a horizontal angle corresponding to each time stamp, a time stamp of said image signal, and said reference clock signal, and updates the horizontal angle at the time of image acquisition by the azimuth angle of the sun at said standard time. 4 . A surveying instrument according to claim 3 , wherein said control device calculates a positional deviation between an image of the sun in an image as acquired and a sighting position, calculates a horizontal deviation angle of an optical axis of said telescope unit based on said positional deviation, and corrects said azimuth angle to be updated based on said horizontal deviation angle. 5 . A surveying instrument according to claim 3 , wherein said control device measures a horizontal angle at a time of updating the horizontal angle by said horizontal angle measuring unit, obtains a deviation between the horizontal angle as measured and the horizontal angle at the time of image acquisition, and corrects said azimuth angle based on said deviation. 6 . A surveying instrument according to claim 4 , wherein said control device measures a horizontal angle at a time of updating the horizontal angle by said horizontal angle measuring unit, obtains a deviation between the horizontal angle as measured and the horizontal angle at the time of image acquisition, and corrects said azimuth angle based on said deviation.