Intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication and method

What is claimed is: 1. An intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication, wherein the intelligent switching system comprises a vision system, a cooling system, and a control system; the vision system is configured to monitor a milling state of a cutter of a machine tool in real time, collect a real-time milling depth image that the cutter mills a workpiece, and transmit the real-time milling depth image that the cutter mills the workpiece to the control system through a first wireless transmission device; the control system comprises a lubrication mode control center, a second wireless transmission device, a motor control center and a third wireless transmission device; the lubrication mode control center is connected with the second wireless transmission device; the second wireless transmission device is configured to receive a real-time image transmitted by an image collection control center; the lubrication mode control center is configured to analyze and process the real-time milling depth image that the cutter mills the workpiece to obtain real-time milling depth data of the cutter, and configured to compare the real-time milling depth data with a preset milling depth threshold to obtain a lubrication mode in current a machining condition based on a comparative result; the third wireless transmission device is configured to receive a signal sent by the lubrication mode control center; the motor control center is configured to analyze and process the signal to obtain a control instruction; and the third wireless transmission device transmits the control instruction to the cooling system; the cooling system is configured to execute a command of switching the internal cooling and the external cooling sent by the motor control center, so as to realize the internal cooling and the external cooling for the machine tool. 2. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 1 , wherein the vision system comprises a self-stabilization platform, and a camera, a lighting device, the image collection control center and the first wireless transmission device which are mounted on the self-stabilization platform; the camera is configured to photograph the real-time milling depth image of the cutter mills the workpiece; the camera is communicated with the image collection control center; the image collection control center is coupled with the first wireless transmission device; and the lighting device is mounted above the camera. 3. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 1 , wherein the cooling system comprises a cutting fluid storage device for the internal cooling and the external cooling, a reversing device, an internal cooling device, an external cooling device, and a compressed air storage device for the external cooling; the cutting fluid storage device for the internal cooling and the external cooling is connected with the internal cooling device and the external cooling device respectively through the reversing device; the external cooling device is further connected with the compressed air storage device for the external cooling; and the compressed air storage device for the external cooling is configured to convey compressed air to the external cooling device through a pipeline. 4. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 3 , wherein the reversing device comprises a body; the body is provided with a cooling fluid main pipeline, an internal-cooling-device pipeline A, an external-cooling device pipeline B, and an overflow pipeline; the internal-cooling-device pipeline A, the external-cooling device pipeline B, and the overflow pipeline are communicated with the cooling fluid main pipeline; the cooling fluid main pipeline is communicated with the cutting fluid storage device for the internal cooling and external cooling; the internal-cooling-device pipeline A and the external-cooling device pipeline B are cooperated with a reversing block; and the reversing block is driven by a motor to close or open the internal-cooling-device pipeline A and/or the external-cooling device pipeline B. 5. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 4 , wherein the cooling fluid main pipeline and the overflow pipeline are each mounted with a cutting fluid pressure adjustment device; the cutting fluid pressure adjustment device comprises a valve core, a spring, a pressure adjustment nut, and an adjustment bushing; the adjustment bushing has a thread, and is mounted on the body of the reversing device through the threaded; the pressure adjustment nut is mounted on the adjustment bushing; the adjustment screw, a spring seat, and the pressure adjustment spring are sequentially mounted in the adjustment bushing; and a tail end of the pressure adjustment spring is mounted on a spring base and is connected with the valve core. 6. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 4 , wherein the reversing block comprises a vertical part and three horizontal parts; the vertical part is connected with a reversing motor coupling; when the reversing block is rotated, the horizontal parts are cooperated with the internal-cooling-device pipeline A or/and the external-cooling device pipeline B. 7. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 1 , wherein the internal cooling device comprises a rotary joint, an internal cooling plug, a plug inner-sleeve, and an internal cooling joint; the internal cooling plug is mounted in a machine-tool main spindle; the plug inner-sleeve is mounted in the internal cooling plug through inner-sleeve bearings; a right one of the inner-sleeve bearings is fixed at the plug inner-sleeve through a snap ring; the internal cooling joint is mounted in the machine-tool main spindle through a bearing internal-cooling-joint bearing; and the machine-tool main spindle is mounted in a housing of the machine-tool main spindle through a machine-tool main-spindle upper bearing and a machine-tool main-spindle lower bearing. 8. The intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 1 , wherein the external cooling device comprises an X-axis telescopic arm module, a Y-axis telescopic arm module, a Z-axis telescopic arm module, and a sprayer-nozzle angle module; the Y-axis telescopic arm module is mounted on the X-axis telescopic arm module; the Z-axis telescopic arm module is mounted on the Y-axis telescopic arm module; and the sprayer-nozzle angle module is mounted on the Z-axis telescopic arm module. 9. A method for cooling a machine tool, the method being carried out by the intelligent switching system for switching internal cooling and external cooling based on minimal quantity lubrication according to claim 1 , wherein the method comprises: receiving a machining instruction and controlling the vision system to operate via the lubrication mode control center at a beginning of machining; transmitting the real-time milling depth image that the cutter mills the workpiece to the lubrication mode control center via the vision system after the vision system operates; obtaining the real-time milling depth data of the cutter by analyzing and processing the rea