Process monitoring for high-speed joining

The invention claimed is: 1. A process monitoring method of a joining operation of a joining element at a speed of at least 5 m/s into at least one component with the aid of a setting device, said setting device comprising a plunger for setting the joining element, a buffer which limits a maximum deflection of the plunger in a joining direction, and a distance measurement sensor with which the deflection of the plunger can be detected, wherein the monitoring of the process comprises the following steps: detecting the path of the plunger during the joining operation as a function of the time in the form of a distance-time curve using the distance measurement sensor; detecting a contact of the plunger on the buffer, wherein the buffer of the setting device comprises a force sensor that detects a setting force of the plunger when contacting the buffer; outputting of the setting force by the buffer when the plunger contacts the buffer, wherein the contacting of the plunger on the buffer below a minimum setting force, as detected by the force sensor, is not detected as contacting of the plunger of the buffer for purposes of that detecting step; and evaluating the distance-time curve such that, in the presence of one maximum representing a sufficient driving of the joining element into the at least one component followed by one minimum in the distance-time curve representing a reaction of the at least one component to the plunger moving the at least one component back against the joining direction, and without detecting contact of the plunger on the buffer, a joint connection is judged to be acceptable during the joining operation covering a period in which the plunger drives the joining element into the at least one component in the joining direction and the plunger experiences a reaction from a component to the joining element causing the plunger to move opposite the joining direction. 2. The process monitoring method according to claim 1 , wherein the buffer of the setting device comprises an electrical switch that can be triggered by the plunger, and in which the process monitoring method comprises the additional step of: triggering of an electrical signal by the buffer when the plunger contacts the buffer. 3. The process monitoring method according to claim 1 , comprising the further step of: forming the first and second derivative of the distance-time curve over time to determine the at least one maximum and the at least one minimum. 4. The process monitoring method according to claim 1 , comprising the further step of: empirically determining the joining energy to be supplied to the joining element along with a distance to be traveled by the joining element to achieve a connection that is acceptable without the plunger contacting the buffer. 5. The process monitoring method according to claim 4 , comprising the further step of: determining a pressure range when pneumatically or hydraulically joining a joining element, as a reference for the joining energy to be supplied to the joining element. 6. The process monitoring method according to claim 4 , comprising the further step: determining a speed range of the plunger when electromechanically joining a joining element as a reference for the joining energy to be supplied to the joining element. 7. The process monitoring method according to claim 4 , comprising the further step of: determining a quality of a created joint by means of the tensile strength of the head of the joining element during removal from the at least one component. 8. The process monitoring method according to claim 7 , comprising the further step of: performing a torque test to determine whether a created connection is acceptable. 9. The process monitoring method according to claim 4 , comprising the further step of: performing a visual inspection as to whether a created connection is adequate, said inspection being conducted while performing the empirically determining the joining energy step. 10. The process monitoring method according to claim 4 , comprising the further step of: performing a torque test to determine whether a created connection is acceptable, said torque test performing step being conducted during said empirically determining joining energy step. 11. The process monitoring method according to claim 1 , comprising the further step of: performing a visual inspection of whether a created connection is acceptable. 12. The process monitoring method according to claim 1 , comprising the further step of: performing a torque test to determine whether a created connection is acceptable. 13. The process monitoring method according to claim 12 , comprising the further step of: rotating the joined joining element at a defined torque so that the connection can be judged as acceptable if the joining element fails to rotate.