Steel-strip production method, and steel strip

The invention claimed is: 1. A steel-strip production method for producing a hot-dip-plated steel strip and a cold-rolled steel strip, the method comprising: providing a steel-strip production apparatus configured to produce a hot-dip-plated steel strip and a cold-rolled steel strip from a base steel strip, the steel-strip production apparatus including a continuous annealing furnace, a snout connected to the continuous annealing furnace, a contact seal plate device and a noncontact seal roll device that are arranged on an entry side of the snout along a transfer direction of the base steel strip in this order, a removable hot-dip-plated steel strip device configured to produce the hot-dip-plated steel strip, and a removable cold-rolled steel strip device configured to produce the cold-rolled steel strip, the removable hot-dip-plated steel strip device including a hot-dip-plating tank, bath equipment disposed in the hot-dip-plating tank, and a sink roll that is configured to turn a path direction of the base steel strip after the base steel strip passes through the snout with the removable hot-dip-plated steel strip device in an online position, and the removable cold-rolled steel strip device including a deflector roll configured to turn the path direction of the base steel strip after the base steel strip passes through the snout with the removable cold-rolled steel strip device in an online position; at least one of (i) continuously annealing a first portion of the base steel strip to produce the hot-dip-plated steel strip by moving the removable cold-rolled steel strip device from the online position to an offline position where the removable cold-rolled steel strip device is completely removed from the steel-strip production apparatus, and operating the steel-strip production apparatus with the removable hot-dip-plated steel strip device in the online position, and (ii) continuously annealing a second portion of the base steel strip to produce the cold-rolled steel strip by moving the removable hot-dip-plated steel strip device from the online position to an offline position where the removable hot-dip-plated steel strip device is completely removed from the steel-strip production apparatus, and operating the steel-strip production apparatus with the removable cold-rolled steel strip device in the online position, wherein during continuously annealing the first portion of the base steel strip with the removable hot-dip-plated steel strip device in the online position, the hot-dip-plated steel strip is produced from the first portion of the base steel strip by bringing the first portion of the base steel strip that is continuously annealed in the continuous annealing furnace into the hot-dip-plating tank, during continuously annealing the second portion of the base steel strip with the removable cold-rolled steel strip device in the online position, the cold-rolled steel strip is produced from the second portion of the base steel strip by transferring the base steel strip that is continuously annealed in the continuous annealing furnace without causing the second portion of the base steel strip to pass through the hot-dip-plating tank, and a position of the sink roll in the removable hot-dip-plated steel strip device when in the online position is a position of the deflector roll in the removable cold-rolled steel strip device when in the online position. 2. The steel-strip production method according to claim 1 , wherein the production of the hot-dip-plated steel strip includes opening the contact seal plate device and the noncontact seal roll device, and the production of the cold-rolled steel strip includes opening the contact seal plate device and closing the noncontact seal roll device. 3. The steel-strip production method according to claim 1 , wherein the step of moving the removable hot-dip-plated steel strip device from the online position to an offline position includes: stopping the transfer of the base steel strip; closing the contact seal plate device; installing the removable cold-rolled steel strip device including the deflector roll to form a transfer path when producing the cold-rolled steel strip; closing the noncontact seal roll device; and opening the contact seal plate device, and the step of moving the removable cold-rolled steel strip device from the online position to an offline position includes: stopping the transfer of the base steel strip; closing the contact seal plate device; installing the removable hot-dip-plated steel strip device including the bath equipment including the sink roll; and opening the contact seal plate device. 4. A hot-dip-plated steel strip produced using the steel-strip production method according to claim 1 . 5. The steel-strip production method according to claim 2 , wherein the step of moving the removable hot-dip-plated steel strip device from the online position to an offline position includes: stopping the transfer of the base steel strip; closing the contact typecontact seal plate device; installing the removable cold-rolled steel strip device including the deflector roll to form a transfer path when producing the cold-rolled steel strip; closing the noncontact seal roll device; and opening the contact seal plate device, and the step of moving the removable cold-rolled steel strip device from the online position to an offline position includes: stopping the transfer of the base steel strip; closing the contact seal plate device; installing the removable hot-dip-plated steel strip device including the bath equipment including the sink roll; and opening the contact seal plate device. 6. A hot-dip-plated steel-strip produced using the steel-strip production method according to claim 2 . 7. A hot-dip-plated steel-strip produced using the steel-strip production method according to claim 3 . 8. A hot-dip-plated steel-strip produced using the steel-strip production method according to claim 5 . 9. A cold-rolled steel strip produced using the steel-strip production method according to claim 1 . 10. A cold-rolled steel strip produced using the steel-strip production method according to claim 2 . 11. A cold-rolled steel strip produced using the steel-strip production method according to claim 3 . 12. A cold-rolled steel strip produced using the steel-strip production method according to claim 5 . 13. The steel-strip production method according to claim 1 , wherein the noncontact seal roll device includes a first seal roll device and a second seal roll device which are arranged in two stages along the transfer direction of the base steel strip. 14. The steel-strip production method according to claim 13 , wherein the first seal roll device includes a first pair of seal rolls, the second seal roll device includes a second pair of seal rolls, a distance between the first pair of seal rolls is controlled by a first opening/closing device, and a distance between the second pair of seal rolls is controlled by a second opening/closing device. 15. A steel-strip production method for producing a hot-dip-plated steel strip and a cold-rolled steel strip, the method comprising: providing a steel-strip production apparatus configured to produce a hot-dip-plated steel strip and a cold-rolled steel strip from a base steel strip, the steel-strip production apparatus including a continuous annealing furnace, a snout connected to the continuous annealing furnace, a contact seal plate device and a noncontact seal roll device that are arranged on an entry side of the snout along a transfer direction of the base steel strip in this order, a remova