KR940701460A - Flow coating galvanizing - Google Patents

Abstract

The present continuous galvanizing method and apparatus is a liquid phase method in which a linear element to be galvanized, such as a wire, rod or tube, is attached to the end of a transport pipe rising from a centrifugal pump submerged in a batter of molten zinc with a cross-T tube and covers It is passed through a relatively short length of conduit surrounded by continuous overflow of zinc. Zinc falling in excess from the flowing and coated element from the open end of the conduit is dropped into the bat for recycling.

The bat is covered so that the coating provides a substantially enclosed working space over a pool of molten zinc that may occur in an inert atmosphere.

Description

Flow coating galvanized

Since this is an open matter, no full text was included.

1 is a schematic side cross-sectional view of a galvanized zone according to the invention, in addition to being installed as an integrated line for the continuous production of galvanized steel tubes or pipes.

2 is a schematic cross-sectional view of a submersible pump and galvanizing device that rises from the surrounding wall of the zinc bat.

Claims (13)

A method of continuous galvanizing a linear element, the method of improving the application of molten zinc to a cleaned and preheated linear element to be galvanized comprising: having an open end of a cross section at least as large as any other cross section of the tube. Passing the linear element axially through the open tube; Supplying molten zinc from the pool of molten zinc below the open tube to the open tube at a rate sufficient to immerse the linear element in the molten zinc flowing when the linear element passes through the open tube; Excess zinc that flows from the end of the open tube by gravity and falls off the coated linear element is collected. 2. The pump of claim 1, wherein the molten zinc is pumped into the bottom surface of the open tube at a rate sufficient to overflow the annular space between the linear element and the open tube for at least a portion of the length of the open tube. How to let. The method of claim 2, wherein the flow rate of the zinc pumped into the open tube is adjusted for the ejection facility of linear elements of different cross sectional sizes. The method of claim 1, wherein molten zinc is introduced into and into the open tube eccentrically. 5. The method of claim 4, wherein the open tube has a circular cross section and molten zinc is introduced into its tangential and drawn out in a helical flow pattern by frictional traction of the penetrating linear element. Bat for holding the pool in a continuous and pumpable liquid state of the pool of molten zinc, a cover for the bat to maintain a substantially closed space above the pool of molten zinc, the space to spread the space of atmospheric air A pipe, tube having means for continuously introducing an inert gas into it and a galvanizing zone comprising inlet and outlet openings in a wall forming said space for passage through said space of said linear element to be covered with molten zinc. Apparatus for the continuous galvanization of linear elements, such as rods, wires or wires, the apparatus comprising an applicator for coating the linear elements, comprising: a pool having an open end under the surface of the pool of molten zinc; Extends over the surface of and moves the linear element circulating through the space to Mouth and the discharge opening and the axis-aligned opening - closing the conduits with the cross-tube of the distal tube -T; The conduit has a pump associated with the conduit for transporting molten zinc continuously to the cross-T tube at a rate suitable for immersing the linear element in molten zinc while passing through the cross-T tube. 7. The arrangement of claim 6, wherein the pump is an underwater centrifugal pump suspended from a bat lid and the conduit includes a transport pipe that rises from the pump body to the cross-T tube. 8. The body of claim 7, wherein the body of the submersible pump is suspended from the bat lid by a rigid thickener pipe welded to the underside of the lid, wherein the pump impeller is mounted on the fixed structure on the upper side of the bat lid. Driven by an axis extending upward through the erotic pipe, the seal of the drive shaft in the device pipe being driven by an axis extending upward, and the seal of the drive shaft in the device pipe having a bat lid which prevents gas escape from the space. Sealing the passage of the drive shaft through, wherein the motor is coupled to place the structure on top of the bat cover and to drive the pump drive shaft through deceleration drive. 9. An arrangement according to claim 8, wherein the rotational speed of the pump drive shaft is variable to adjust the amount of zinc pumped into the cross-T tube. 10. The arrangement of claim 8, wherein the motor is a variable speed motor that regulates the amount of zinc pumped into the cross-T tube. 6. An arrangement according to claim 5, wherein said conduit is incorporated with respect to the cross-section of said latter and the cross-T-tube off-center of said open-ended tube. 12. An arrangement according to claim 11, incorporating therein tangent to the cross section of the cross-T tube of said open-ended tube. 7. An arrangement according to claim 6, wherein the end of the cross-T tube of the open-ended tube is bell shaped. ※ Note: The disclosure is based on the initial application.