Metallurgical technology probe insertion calibration method employing visual measurement and insertion system thereof

The invention claimed is: 1. A metallurgical technology probe insertion system employing visual measurement comprises: a cylindrical rod and a metallurgical technology probe, wherein a front end of the metallurgical technology probe is an open end along which a deep hole is provided, and wherein the metallurgical technology probe is configured to be hollow for allowing a front end of the cylindrical rod to be inserted into the deep hole of the metallurgical technology probe along the open end, and wherein the metallurgical technology probe insertion system further comprises: a driving device, a fixing device, two vision sensors, a controller, and a standard probe, wherein the driving device is configured to be connected to and fix a rear end of the cylindrical rod, and to be capable of moving a position of the cylindrical rod and adjusting a-pose of the cylindrical rod; the fixing device is configured to fix the metallurgical technology probe, wherein the open end of the metallurgical technology probe is aligned with the front end of the cylindrical rod; an insertion length of the front end of the cylindrical rod and an insertion length of the open end of the metallurgical technology probe form an agreed area; the two vision sensors, one is located vertically above the agreed area by a fixed bracket and another one is located on a horizontal side of the agreed area by another fixed bracket, wherein the two vision sensors respectively detect and collect physical contours of the cylindrical rod and the metallurgical technology probe in the agreed area in real time; the controller acquires related data measured by the vision sensors, calculates a point angular deviation between an axis of the cylindrical rod and an axis of the metallurgical technology probe, and a distance between an end cross-section of the cylindrical rod and an open end cross-section of the metallurgical technology probe, obtains an adjustment amount of the cylindrical rod, and controls the driving device to adjust the pose of the cylindrical rod according to the adjustment amount; and the standard probe manufactured by imitating the metallurgical technology probe reproduces the deep hole of the metallurgical technology probe, and in order to facilitate the abutment of the cylindrical rod during calibration, a part of the deep hole is removed and exposed to form a deep-hole cross-section. 2. The metallurgical technology probe insertion system of claim 1 , wherein the driving device is a multi-axis manipulator. 3. The metallurgical technology probe insertion system of claim 1 , wherein the vision sensor is an industrial camera. 4. The metallurgical technology probe insertion system of claim 1 , wherein the cylindrical standard probe is connected to a fixing block, and a support corresponding to the fixing block is provided with a groove, and wherein, when the standard probe is placed on the support, the deep-hole cross-section is vertically upward, and the fixing block is embedded in the groove and mated with the groove with a non-circular profile connection, and wherein the axis of the probe cannot move and rotate. 5. A metallurgical technology probe insertion calibration method using the metallurgical technology probe insertion system of claim 1 , said method comprising the following steps: a) providing a standard probe manufactured by imitating the metallurgical technology probe, wherein the standard probe reproduces the deep hole of the metallurgical technology probe, and in order to facilitate the abutment of the cylindrical rod during calibration, a part of the deep hole is removed and exposed to form a deep-hole cross-section; b) determining a standard orientation, a standard axis and a standard position using the standard probe before insertion operation, wherein the driving device is used to move the cylindrical rod repeatedly to abut against the deep-hole cross-section of the standard probe to obtain the standard orientation, and no less than three points which are taken to obtain the standard axis; and wherein the standard position is in the standard axis and within the agreed area; and c) providing a calibration method comprising the following steps: i) driving the cylindrical rod to move to the standard insertion position and adjusting the cylindrical rod to a pre-calibrated and pre-collected standard orientation; ii) driving the cylindrical rod to initially move towards the metallurgical technology probe in a direction of a pre-calibrated standard axis with the standard orientation being maintained; iii) collecting physical contours of the cylindrical rod and the metallurgical technology probe in the agreed area in real time, measuring a spatial relative position between a front end face of the cylindrical rod and an open end face of the metallurgical technology probe, and a relative spatial angle between an axis of the cylindrical rod and an axis of the metallurgical technology probe, and calculating an adjustment amount by an algorithm; iv) according to the adjustment amount obtained in step iii), regulating the movement of the cylindrical rod to the metallurgical technology probe to ensure that the axis of the cylindrical rod is consistent with the axis of the metallurgical technology probe and the front end face of the cylindrical rod is inserted into the metallurgical technology probe; and v) continuing to measure a relative spatial angle between the axis of the cylindrical rod and the axis of the metallurgical technology probe, while obtaining an adjustment amount according to deformation of the cylindrical rod itself and by an algorithm, and continuing to move the cylindrical rod according to the adjustment amount to ensure that insertion length of the cylindrical rod meets a standard requirement. 6. The metallurgical technology probe insertion calibration method of claim 5 , wherein the pre-calibrated and pre-collected standard orientation is adjusted by the following steps: a) using the standard axis as the rotation axis and rotating at a fixed angular interval by the cylindrical rod; and b) collecting a contour of the front end of the cylindrical rod every time the cylindrical rod is rotated by an angle, and comparing deviation values of the contour of the front end of the cylindrical rod at different rotation angles to obtain deformation parameters of the cylindrical rod. 7. The metallurgical technology probe insertion calibration method of claim 5 , wherein the standard probe is made of an iron material, and is manufactured by imitating the metallurgical technology probe by machining.