Method and device for controlling flow of liquid zinc in zinc pot for hot-dip galvanization

The invention claimed is: 1. A device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization, the device comprising: traveling wave magnetic field generators arranged transversely and longitudinally in the zinc pot; and a control device for the traveling wave magnetic field generators, wherein the traveling wave magnetic field generators comprise left, right, front and back traveling wave magnetic field generators disposed above a surface of the liquid zinc on a left side, a right side, a front end of the zinc pot and a zone between a strip steel and a furnace snout, respectively; wherein the front traveling wave magnetic field generators and the back traveling wave magnetic field generators constitute transverse traveling wave magnetic field generators, wherein the left traveling wave magnetic field generators and the right traveling wave magnetic field generators constitute longitudinal traveling wave magnetic field generators, wherein the left traveling wave magnetic field generators and the right traveling wave magnetic field generators extend beyond the back traveling wave magnetic field generators to a rear end of the zinc pot, wherein the front traveling wave magnetic field generators comprise a first front traveling wave magnetic field generator and a second front traveling wave magnetic field generator, the back traveling wave magnetic field generators comprising a first back traveling wave magnetic field generator and a second back traveling wave magnetic field generator, wherein the first front traveling wave magnetic field generator and the first back traveling wave magnetic field generator excite a traveling wave electromagnetic field that drives a portion of the liquid zinc in the zinc pot to flow to the left side of the zinc pot, and at a same time, the second front traveling wave magnetic field generator and the second back traveling wave magnetic field generator excite a traveling wave electromagnetic field that drives another portion of the liquid zinc in the zinc pot to flow to the right side of the zinc pot, and wherein the control device for the traveling wave magnetic field generators controls an energizing interval of the traveling wave magnetic field generators, so that the traveling wave magnetic field generators are powered intermittently, to control the liquid zinc to alternate between flowing and non-flowing. 2. The device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization according to claim 1 , wherein the left traveling wave magnetic field generators, the first front traveling wave magnetic field generator, the first back traveling wave magnetic field generator are arranged in symmetry with the right traveling wave magnetic field generators, the second front traveling wave magnetic field generator, the second back traveling wave magnetic field generator on both sides of a center line of a width of the strip steel. 3. The device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization according to claim 2 , wherein the left traveling wave magnetic field generators and the right traveling wave magnetic field generators excite the traveling wave electromagnetic fields that drive the liquid zinc to flow to the rear end of the zinc pot. 4. The device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization according to claim 1 , wherein the left traveling wave magnetic field generators include a first left traveling wave magnetic field generator and a second left traveling wave magnetic field generator, the right traveling wave magnetic field generators include a first right traveling wave magnetic field generator and a second right traveling wave magnetic field generator. 5. The device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization according to claim 1 , wherein the control device for the traveling wave magnetic field generators controls power supply frequency of the traveling wave magnetic field generators to be 0˜200 Hz. 6. The device for controlling flow of liquid zinc in a zinc pot for hot-dip galvanization according to claim 5 , wherein the control device for the traveling wave magnetic field generators controls power supply frequency of the traveling wave magnetic field generators to be 50˜100 Hz.