Device and method using infrared radiation to observe coal rock fracture development process

We claim: 1. A device using infrared radiation to observe the coal rock fracture development process, comprising a thermal infrared imager and a computer, wherein, the device further comprises: three telescopic box bodies sleeved together, with slide-off preventing plugs provided at the relatively sliding limit positions on adjacent two box bodies among the box bodies; the first box body and the second box body are composed of four identical rectangular thermal insulating plates respectively, and the third box body is composed of four identical rectangular thermal insulating plates and a square thermal insulating plate that seals the opening; a monitoring port is arranged on the square thermal insulating plate, the thermal infrared imager is mounted inside the monitoring port, with the lens of the thermal infrared imager facing a coal rock test block, and the distance between the thermal infrared imager and the coal rock test block can be changed by the sliding of the three telescopic box bodies in relation to each other; the thermal infrared imager is connected to the computer via conductive wires; a light barrier plate is mounted on the rear end face of the first box body, and the light barrier plate is made of the thermal insulating plate and is connected with a side plate of the first box body via a hinge; a round hole through which a plunger of a rock press machine can pass is arranged on the top thermal insulating plate of the first box body, a U-slot through which a support pillar of a workbench of the rock press machine can pass is arranged on the bottom thermal insulating plate of the first box body, and the arc of the U-slot is concentric with the round hole. 2. The device infrared radiation to observe the coal rock fracture development process according to claim 1 , wherein: a rubber sleeve is fitted around the round hole, one end of the rubber sleeve is glued to the first box body, and the other end of the rubber sleeve is fitted over the plunger of the rock press machine. 3. The device infrared radiation to observe the coal rock fracture development process according to claim 1 , wherein: each of the thermal insulating plates is composed of a wood plate in thickness of 5 mm and an aluminum foil coated on the wood plate. 4. A method using infrared radiation to observe the coal rock fracture development process with the device according to claim 1 , comprising the following steps: a. removing a pin on the plunger of the rock press machine, removing a press plate of the rock press machine and lifting the plunger of the rock press machine till the telescopic box bodies can be placed under the plunger, placing the side of the telescopic box bodies at which the light barrier plate exists among columns of the rock press machine, opening the light barrier plate, and clamping the U-slot to the support pillar of the workbench of the rock press machine; b. laying the telescopic box bodies level, lowering the plunger of the rock press machine so that the plunger passes through the round hole on the top thermal insulating plate of the first box body, fitting one end of the rubber sleeve on the plunger of the rock press machine to baffle incident ambient light; c. wearing heat insulating gloves, opening the light barrier plate on the first box body, fixing the press plate of the rock press machine with the pin to the plunger of the rock press machine, moving up and down the plunger of the rock press machine, and observing the coupling between the plunger of the rock press machine and the round hole on the top thermal insulating plate of the first box body, to ensure the incident ambient light is blocked there and the plunger can move up and down freely; d. opening the light barrier plate on the first box body, and loading a coal rock test block onto the workbench of the rock press machine from the rear side of the first box body; e. adjusting the telescopic box bodies to level state, starting the thermal infrared imager extending into the monitoring port on the third box body, and activating a video recording function of the thermal infrared imager; f. starting the rock press machine to apply load to the coal rock test block according to the preset pressure, till the coal rock test block collapses; thus, the load test of the coal rock test block is completed; g. stopping the loading, closing the video recording function of the thermal infrared imager, converting the video content of the entire load bearing process of the coal rock test block recorded by the thermal infrared imager into digital signals, and transmitting the digital signals to the computer for analysis and processing; h. opening the light barrier plate, wearing heat insulating gloves and clearing the broken coal rock test block on the workbench of the rock press machine; i. repeating the above steps to perform load test of the next coal rock test block.