Protection of components of digital printing systems

The invention claimed is: 1. A printing system comprising: a. an intermediate transfer member (ITM) comprising a flexible endless belt mounted over a plurality of guide rollers; b. an image-forming station comprising a print bar disposed over a surface of the ITM, the print bar configured to form ink images upon a surface of the ITM by droplet deposition; c. a conveyer for driving rotation of the ITM at a fixed rotation speed in a print direction to transport the ink images towards an impression station where they are transferred to substrate; d. a detection system comprising a detection element disposed at a detection location that is upstream of the image-forming station and downstream of the impression station, the detection system being configured to quantify an intensity of an impact between (i) foreign matter that is transported by the rotating ITM, if present at the detection location and in collision therewith; and (ii) the detection element; and e. a response system operatively coupled to the detection system to respond to the detection of foreign matter by performing, contingent upon the quantified intensity of the impact exceeding a threshold value, at least one collision-prevention action to prevent a potential collision between foreign matter and the print bar. 2. The printing system of claim 1 , wherein the detection element comprises an elongated and rotatable blade whose orientation is changed by impact with the foreign matter, if present at the detection location and in collision therewith, and wherein the response system performs the at least one collision-prevention actions in response to a detected rotation of the blade. 3. The printing system of claim 2 , wherein when not in collision with the foreign matter, an orientation of the elongated blade is non-parallel to an upper surface of the ITM. 4. The printing system of 2 , wherein when not in collision with the foreign matter, an orientation of the elongated blade is closer to a perpendicular orientation relative to the upper surface of the ITM than to an orientation that is parallel to the upper surface of the ITM. 5. The printing system of claim 2 , wherein when the not in collision with the foreign matter, the blade has the following feature: for exactly one end of the elongated blade, a gap G 2 between the ITM and an edge of the blade proximate to the ITM is smaller than a gap G 1 between the print bar and the ITM. 6. The printing system of 1 , wherein the at least one collision-prevention action that is performed in response to the quantified intensity of the impact includes lifting the print bar. 7. The printing system of claim 2 , wherein the detection system includes a limit switch for detecting an orientation of the blade relative to an upper surface of the ITM, and wherein the response system performs the at least one collision-prevention actions in response to output of the limit switch. 8. The printing system of claim 1 , wherein the detection system includes a camera for imaging the elongated blade and image-circuitry for detecting an orientation of the elongated blade by analyzing output of the camera, wherein the response system performs the at least one collision-prevention actions in response to results of the analyzing of the output of the camera by the image-circuitry. 9. The printing system of claim 1 , wherein: i. the print bar is disposed over a surface of the ITM with a minimum gap of G 1 therebetween, ii. the response system includes a print-bar-lifting system operatively coupled to the detection system to respond to the detection of the detected transported foreign matter, the print-bar lifting system including an electric actuator, iii. performing at least one collision-prevention action includes lifting the print-bar to a height that is at least twice that of gap G 1 , and iv. the lifting of the print bar is performed within a response time defined by the speed of the rotating ITM and the distance from the detection location to the image-forming station along the travel path of the ITM in the print direction. 10. A method of operating a printing system wherein a print bar forms ink images upon a rotating intermediate transfer member (ITM) and the ink images are subsequently transported by the ITM to an impression station where they are transferred to substrate, the method comprising: a. quantifying an intensity of an impact between (i) foreign matter that is transported by the rotating ITM, if present at a detection location upstream of the image-forming station and downstream of the impression station and (ii) a detection element of a detection system, the detection element being disposed at the detection location; and b. contingent upon the quantified intensity of the impact exceeding a threshold value, responding to the detection by performing at least one collision-prevention action to prevent a potential collision between foreign matter and the print bar. 11. The printing system of 1 , wherein the at least one collision-prevention action includes moving a surrogate object to a location upstream of the print bar so that the foreign matter collides with the surrogate object instead of with the print bar. 12. The printing system of claim 1 wherein: A. the response system is configured to refrain from any collision-prevention action when the detection system detects both of the following: (i) a presence at the detection location of foreign matter that is transported by the rotating ITM; and (ii) the quantified intensity of the impact between the foreign matter and the detection element being at or below a threshold value; and B. the response system is configured to perform the at least one collection-prevention action only when the detection system detects both of the following: (i) a presence at the detection of foreign matter that is transported by the rotating ITM; and (ii) the quantified intensity of the impact between the foreign matter and the detection element exceeding the threshold value. 13. The printing system of claim 1 wherein: A. the response system is configured to perform only a first set of one or more collision-prevention actions when the detection system detects both of the following: (i) a presence at the detection location of foreign matter that is transported by the rotating ITM; and (ii) the quantified intensity of the impact between the foreign matter and the detection element being at or below a threshold value; and B. the response system is configured to perform only a second set of one or more collision-prevention actions when the detection system detects both of the following: (i) a presence at the detection of foreign matter that is transported by the rotating ITM; and (ii) the quantified intensity of the impact between the foreign matter and the detection element exceeding the threshold value, and wherein the first and second sets of collision-prevention actions are different from each other. 14. The printing system of claim 13 wherein the first and second sets of collision-prevention actions are disjoint from each other. 15. The printing system of claim 13 wherein the stopping the rotation of the ITM is a collision-prevention action which: (i) is a member of the second set of collision-prevent actions; and (ii) is not a member of the first set of collision-prevent actions. 16. The printing system of claim 15 wherein lifting the print bar is a collision-prevention action which: (i) is a member of the first set of collision-prevent actions; and (ii) is not a member of the second set of collision-prevent actions. 17.