TH58892B - Metal bar stabilization device Manufacturing methods of hot dip coated metal strips and metal strips - Google Patents

Abstract

DC60 (02/11/55) metal bar stabilization device, which can avoid the decline in capacity. To control the vibration caused by the induced current between the control coils. It can vibrate with coil for position correction. Relevant metal bar stabilization device related to this invention There is a non-contact displacement sensor 4 which measures the displacement of the metal bar 2 while the production line is running. and control part 5 which inputs the signal coming from The sensor measures the non-contact displacement and outputs the vibration control signal and position correction signal and a 7a vibration control coil which induces magnetic force accordingly. The vibration control signal, which is output from control 5 and rectifying wire bottle 7b, has a greater number of winding turns than the 7a vibration control coil, which induces a magnetic force. According to the position correction signal which is output from control 5 and core 6, which conducts the magnetic force which is generated. It goes up from the vibration control coil 7a and the rectification coil 7b to the metal bar 2 and the inductive current handling coil 13a, which are serialized to the circuit in which it operates. Supply power to the position correction winding 7b. A metal strip stabilization device which can avoid a decrease in capacity. To control the vibration caused by the induced current between the control coils. It can vibrate with coil for position correction. Relevant metal bar stabilization device related to this invention There is a non-contact displacement sensor 4 which measures the displacement of the metal bar 2 while the production line is running. and control part 5 which inputs the signal coming from The sensor measures the non-contact displacement and outputs the vibration control signal and Location correction signal and a 7a vibration control coil which induces magnetic force accordingly. The vibration control signal, which is output from control 5 and rectifying wire bottle 7b, has a greater number of winding turns than the 7a vibration control coil, which induces a magnetic force. According to the position correction signal which is output from control 5 and core 6, which conducts the magnetic force which is generated. It goes up from the vibration control coil 7a and the rectifier coil 7b to the metal bar 2 and the inductive current handling coil 13a, which is made to in series to the electrical circuit that performs Supply power to winding for fixing position 7b.

Claims (1)

1. Metal band stability control device, which is characterized by a non-contact displacement sensor which measures the displacement of the metal strip during The production line is running. And control, which inputs a signal coming from a non-contact displacement sensor at As mentioned above, and output the vibration control signal that is used for vibration control. The above-mentioned metal bar vibration and position correction signal are used for position correction. Of the aforementioned metal strips and the first coiled flask, which induces a magnetic force following the resonance control signal that is output From the control section above and the wire vial 2 that has more turns than coil 1 mentioned above. Causing Magnetic based position correction signal which is output from the above control. And the core where the 1st coil is wound above with the 2nd coil above to the same center and conducts the magnetic force generated by the 1st coil above to the coil. The second of the above goes to the aforementioned metal strip and the third winding, which is in series with the power circuit that supplies the power to the 2nd coil above.