Coal dropping impact energy buffer monitoring device and method for coal mine belt conveying system

The invention claimed is: 1. A coal-falling impact energy buffering and monitoring device for a belt-type conveying system in a coal mine, wherein, the coal-falling impact energy buffering and monitoring device comprises a buffer belt drum set, a buffer bracket, buffer springs, an impact energy collecting damper, a signal converting-transmitting device, and a mounting base plate; the buffer belt drum set is fixed to the buffer bracket, the upper ends of the buffer springs are connected with the buffer bracket via a boss, the lower end of the buffer springs are connected with the mounting base plate via a boss, the upper end of the impact energy collecting damper is connected with the buffer bracket, the lower end of the impact energy collecting damper is connected with the mounting base plate, the impact energy buffer damper is connected with the signal converting-transmitting device through lead wires, and the signal converting-transmitting device is fixed to the mounting base plate wherein the buffer belt drum set comprises a horizontal buffer belt drum set and an inclined buffer belt drum set arranged symmetrically at two sides of the horizontal buffer belt drum set, and the inclined buffer belt drum set is inclined upwards; both the horizontal buffer belt drum set and the inclined buffer belt drum set comprise several drum set units that are equal in quantity and evenly spaced, each drum set unit comprises at least two drums fitted over rollers, and a rubber ring is fitted over the drums and wherein first rubber strips are provided on the upper ends of the rollers of the inclined buffer belt drum set, and the first rubber strips are fixed to the buffer bracket by bolts; second rubber strips are provided on two ends of the rollers of the horizontal buffer belt drum set, and the second rubber strips are fixed to the buffer brackets by sunk screws. 2. The coal-falling impact energy buffering and monitoring device for a belt-type conveying system in a coal mine according to claim 1 , wherein, the buffer bracket comprises a plate stiffener, a horizontal plate stiffener, and a vertical plate stiffener; a plate stiffener and a vertical plate stiffener paralleled to the horizontal buffer belt drum set are arranged below the horizontal buffer belt drum set, and a plate stiffener and a horizontal plate stiffener parallel to the inclined buffer belt drum set are arranged below the inclined buffer belt drum set. 3. The coal-falling impact energy buffering and monitoring device for a belt-type conveying system in a coal mine according to claim 1 , wherein, the impact energy buffer damper comprises an upper rubber isolating layer, a permanent magnet, a coil, an explosion-proof enclosure, and a threaded rotating body, the upper rubber isolating layer and the permanent magnet are fixed to the buffer bracket via the threaded rotating body, the coil is fitted over the permanent magnet, and a part of the coil in contact with the permanent magnet encloses the explosion-proof enclosure. 4. The coal-falling impact energy buffering and monitoring device for a belt-type conveying system in a coal mine according to claim 1 , wherein, the signal converting-transmitting device comprises a rectifier device, which is connected with the impact energy collecting damper and an inverter respectively, the inverter is connected with a current measurement device, the current measurement device is connected with a wireless router, and the wireless router is connected with a plate antenna. 5. A coal-falling impact energy buffering and monitoring method for a belt-type conveying system in a coal mine, wherein, mounting the coal-falling impact energy buffering and monitoring device according to claim 1 right below the belt of a belt-type conveying system at a material falling position, converting the impact force suffered by the belt at the coal falling position into an electrical signal with an impact energy collecting damper, transmitting the electrical signal received by a signal converting-transmitting device to an upper computer, judging the material falling situation with the upper computer according to the signal, the material falling situation includes three situations: no falling material, normal material falling, and material falling overload, at the same time, retrieving the data from a weighing system of an upstream belt conveyer with the upper computer to judge whether the upstream belt conveyer operates normally or not; if the upstream belt conveyer operates normally but the material falling situation is “no falling material” or “material falling overload”, which indicates a stockpiling fault has occurred, shutting down a first belt driving motor of the upstream belt conveyer and a second belt driving motor of the belt-type conveying system at the same time via the upper computer.