Dynamic contact heat transfer simulation device for rolling heavy-load deformation zone

What is claimed is: 1. A dynamic contact heat transfer simulation device for rolling heavy-load deformation zone, comprising a thermal insulation cover, a hydraulic cylinder, a control relay, a pressure sensor, a pressure-adjustable fixed cold end, a thermocouple, a control system, and a data acquisition system, a heating furnace, a motor, a rotating chuck, a temperature-adjustable heat-conducting rod, a connecting mechanism, a temperature-measuring slip ring mechanism, a speed-adjustable rotating hot end, a moving chuck and a cooling pipe; wherein the heating furnace is used for heating the temperature-adjustable heat-conducting rod, and a temperature rise curve of the heating furnace is controlled by the control system; a first end of the temperature-adjustable heat-conducting rod is clamped on the rotating chuck, and the rotating chuck is connected with the motor; a second end of the temperature-adjustable heat-conducting rod is connected to the speed-adjustable rotating hot end through the connecting mechanism, and the motor drives the speed-adjustable rotating hot end to rotate together by driving the adjustable-temperature heat-conducting rod to rotate; lubricant is introduced into contact interface between the speed-adjustable rotating hot end and the pressure-adjustable fixed cold end, and the control system controls lubricant quantity of a hydraulic oil pump so that lubricating oil slowly flows into the contact interface between the pressure-adjustable fixed cold end and the speed-adjustable rotating hot end, to ensure that a stable lubricating oil film is formed at the contact interface; the moving chuck is used to mount the pressure-adjustable fixed cold end, and the cooling tube is provided inside the moving chuck; the thermocouple installed on the pressure-adjustable fixed cold end for temperature measurement passes through the thermal insulation cover and is connected to the data acquisition system; the hydraulic cylinder is connected with the moving chuck, and the hydraulic cylinder pushes the moving chuck to drive the pressure-adjustable fixed cold end to contact with the speed-adjustable rotating hot end, and ensure a stable pressure between two specimens, the control system controls the hydraulic cylinder through a hydraulic control relay; the pressure sensor installed between the hydraulic cylinder and the moving chuck is connected to the data acquisition system; the thermocouple installed on the speed-adjustable rotating hot end for temperature measurement is slidably connected to the temperature-measuring slip ring mechanism, and transmits signals to the data acquisition system through outer ring wire of the temperature-measuring slip ring mechanism; the control system is a control device that controls the temperature rise curve of the heating furnace, and processes, calculates, and stores the data collected by the data acquisition system; the control system adopts a closed-loop control system to synchronously control cold end pressure, hot end rotation speed, contact interface lubrication flow and thermocouple acquisition, and simulate thermal conductivity law of transient temperature under different rolling speeds, pressures, cooling, lubrication and friction conditions in real time according to actual rolling conditions, while calculating contact dynamic heat transfer coefficient of the heavy-load deformation zone. 2. The dynamic contact heat transfer simulation device for rolling heavy-load deformation zone according to claim 1 , wherein the contact interface between the speed-adjustable rotating hot end and the pressure-adjustable fixed cold end is etched with an oil reservoir capable of storing the lubricant, and an oil through hole is machined at the center of the speed-adjustable rotating hot end, and the hydraulic oil pump injects the lubricant into the contact interface through the oil through hole to form a lubricating oil film with a stable thickness. 3. The dynamic contact heat transfer simulation device for rolling heavy-load deformation zone according to claim 1 , wherein the temperature-measuring slip ring mechanism is mounted on the speed-adjustable rotating hot end, an inner ring of the temperature-measuring slip ring mechanism rotates synchronously with the speed-adjustable rotating hot end, and an outer ring of the temperature-measuring slip ring mechanism is fixed to prevent winding of the thermocouple in rotating state.