System for measuring a vehicle gap or step

What is claimed is: 1. A system for measuring a vehicle gap or a step, wherein a vehicle body to which a hood, a door, and a trunk lid are assembled is seated on a carrier and moved along parallel transfer lines with the vehicle body having a length direction parallel to longitudinal axes of the transfer lines each axis defined from a front end to a back end of each of the transfer lines, and the system is installed over the transfer lines to measure a gap or step between the vehicle body, the hood, the door, and/or the trunk lid, the system comprising: one or more door regulating units configured to place the door installed in the vehicle body such that the one or more door regulating units are freely rotatable to a reference position and attached between the vehicle body and the door and between front and rear doors to eliminate a gap or a step with respect to a pre-set portion of the door; upper rails installed in both sides above a workplace such that the upper rails having front and rear ends are parallel and correspond to the transfer lines; a moving frame configured to be movable along the respective upper rails; a forward/backward moving unit installed above the moving frame and moving the moving frame forwardly and backwardly on the upper rails; a horizontal moving unit moving installation frames configured to be substantially perpendicular at both end portions in a length direction of the moving frame to left and right in a width direction of the vehicle body on the moving frame; a vertical moving unit installed in the installation frames and reciprocally moving a sliding plate upwardly and downwardly in a height direction of the vehicle body; a measurement module installed to be movable upwardly and downwardly in the height direction of the vehicle body through the sliding plate of the vertical moving unit and configured to be rotatable on the basis of a forward/backward direction, horizontal direction, and vertical direction of the vehicle body to measure the gap or the step between the vehicle body and the hood, the door, and/or the trunk lid; and an electronic tag installed on a roof of the vehicle body. 2. The system of claim 1 , wherein the electronic tag allows an operator to input or output details of work thereto or therefrom through a wireless input/output terminal in real time to check information regarding a vehicle type and work. 3. The system of claim 2 , wherein the wireless input/output terminal is selectively inserted into or released from a stand provided in one side of the moving frame by the operator. 4. The system of claim 1 , wherein the door regulating unit comprises: a housing having sliding recesses formed at positions spaced apart at a predetermined interval therebetween, one surface thereof corresponding to the door being open; sliders inserted into the sliding recesses and slidably installed therein; a magnetic member installed on front ends of the sliders and generating magnetic force to allow the sliders to be maintained in a state of being attached to the vehicle body and the door; one or more electromagnet members formed to be spaced apart from one another at substantially equal intervals in a length direction within the sliding recesses and selectively generating magnetic force to regulate positions of the sliders; sensors installed on rear ends of the sliders positioned within the sliding recesses and outputting positions of the sliders to a controller; elastic members interposed between the sliders and one surface of the sliding recesses within the sliding recesses and providing elastic force to the sliders; and an operating unit installed on an opposite surface of the housing and supplying power to the electromagnet members according to whether an operating block is held. 5. The system of claim 4 , wherein the housing has a stopping protrusion integrally formed on one open surface of each sliding recess, and a stopping end is integrally formed in a rear end of the slider such that it corresponds to the stopping protrusion. 6. The system of claim 4 , wherein each electromagnet member is configured such that both ends thereof have a same polarity in a length direction of the housing and a portion between the both ends has a different polarity. 7. The system of claim 4 , wherein the power supply unit is connected to the controller and selectively supplies power to each electromagnet member by a control signal from the controller according to whether the operating unit operates, to regulate a position of each slider. 8. The system of claim 1 , wherein the measurement module comprises: a first rotary motor installed in the sliding plate through a connection frame such that a rotational shaft thereof faces downwardly, and rotated on the basis of the vertical direction of the vehicle body; an installation bracket installed in the rotational shaft of the first rotary motor; a second rotary motor installed in one side of the installation bracket and having a rotational shaft passing through the installation bracket and rotated on the basis of the forward/backward direction of the vehicle body; a third rotary motor connected to the rotational shaft of the second rotary motor within the installation bracket, and having a rotational shaft rotated on the basis of the horizontal direction corresponding to the width direction of the vehicle body; and a sensor connected to the rotational shaft of the third rotary motor and measuring the gap or the step between the vehicle body and the hood, the door, and/or the trunk lid. 9. The system of claim 8 , wherein the sensor includes a vision sensor, and outputs a sensed measurement value to a controller. 10. The system of claim 8 , wherein the first, second, and third rotary motors are electrically connected to the controller, and include servo motors whose revolutions per minute (RPMs) and rotational directions are regulated. 11. The system of claim 1 , wherein the forward/backward moving unit comprises: a connection plate installed above the moving frame corresponding to the upper rails; one or more rollers installed on one surface of the connection plate such that they are rollingly in contact with inner upper and lower surfaces of the upper rails; and a first driving motor installed on an opposite surface of the connection plate in a state in which a rotational shaft thereof is connected to a roller in contact with the inner upper surface of each upper rail, among the respective rollers, and transferring driving force to the roller. 12. The system of claim 1 , wherein the horizontal moving unit comprises: a connection housing connected to an upper end of each installation frame, and installed on upper portions of both ends of the moving frames; rack gears installed on both upper portions of the moving frames in a length direction; pinion gears enmeshed with the respective rack gears within the connection housing; a first rotational shaft connected to a rotational center of each pinion gear; and a second driving motor having a second rotational shaft connected to the first rotational shaft and installed in the connection housing to transfer rotary power to the first rotational shaft. 13. The system of claim 1 , wherein the vertical moving unit comprises: a rail housing installed in the installation frame in the vertical direction of the vehicle body, and the sliding plate is slidably coupled to one surface thereof facing a front side of the vehicle body; a third driving motor installed within the rail housing and having a rotational shaft connected to a ball screw; a guide rail mounted on a plate within the rail housing; and a rail block inserte