1. Technical Field
This invention relates to a method and device used for repairing the refractory lining wall of a furnace vessel. More specifically, to repair an internal degradation of refractory brick which typically lines the interior of blast furnaces and the like.
2. Description of Prior Art
Prior art devices of this type have been used to pump refractory repair material into the inner surface wall of a furnace while the furnace is still “in heat”, see for example U.S. Pat. Nos. 3,931,959, 4,065,059, 2,253,646, 4,465,648, and 5,833,811.
In U.S. Pat. No. 3,931,959 a gun for applying refractory repair material can be seen in which moistened refractory material is injected through an elongated tube inserted through an opening in a furnace wall and repair material is ejected from an end nozzle tip.
U.S. Pat. No. 4,065,059 is directed to a repair gun for coke ovens having an air cooled pressurized insulated tube with an internal pipe through which repair material is transported and expelled from the carrying tip at 90 degree angle to its longitudinal axis.
A hot blast furnace lining repair apparatus can be seen in U.S. Pat. No. 4,465,648 having a vertically descending support and transfer tube into the furnace which has a collapsible arm with a nozzle end for repairing the liner from inside the furnace when it is shut down.
U.S. Pat. No. 4,465,648 discloses a method for repairing a refractory wall of a furnace from the outside in which an injection nozzle is inserted having multiple refractory studs which are incorporated into the repair material as it is being made. Multiple discharge outlets open laterally from the nozzle near its conical head and in perpendicular direction to the horizontal axis of the nozzle.
A method and apparatus for repairing a refractory wall of a blast furnace or the like during use. The apparatus for carrying out the repair is inserted through an opening of minimal size in the outer steel shell adjacent the area to be repaired on the inside. The apparatus has a plurality of angularly disposed outlet nozzles that dispense refractory repair material under pressure back against the insertion wall creating a self-sealing repair as the apparatus is slowly withdrawn at the completion of the repair.
Referring now to
The dispensing device 10 of the invention has a main elongated cylindrical body 11 having a threaded end cap 12 or equivalent registerably positioned within the perimeter of its dispensing end at 13. The end cap 12 is preferably of the same outer diameter as that of the cylindrical body 11 for smooth withdrawal during the repair process which will be described in greater detail hereinafter.
The cylinder body member 11 is adapted to be removably secured to the source S of refractory patch material M by a connecting couple 14 which may be of any corresponding configuration to match the respective source S of refractory patch material M, as noted.
A plurality of injection nozzle assemblies 15 are positioned within and dispensing end portion 16 in cylinder 13 in longitudinally and radially spaced relation to one another as best seen in
The length and angular orientation of each of the tubular elements 17 imparts a reverse directional outlet stream of refractory patch material M therefrom as illustrated by multiple flow arrows 21. The reverse directional outlet stream flows 21 are critical to the success of the repair illustrated in
Once an area for repair at 22 has been identified by detecting a “hot spot” HS on the outside surface 23 of an outer steel furnace wall 24, a small access opening is cut at 25 therein. The repair device 10 interconnected to the source S of refractory patch material M is inserted through the cut-out at 24 into the furnace F to a distance equal to that of the existing refractory wall W. The refractory patch material M is then supplied under pressure through the interior 20 of the cylindrical body member 11 and into the respective open ends at 25 of the tubular elements 17. The nozzles 15 so formed direct the outlet flows 21 back towards the interior surface of the furnace wall 23 filling in the area for repair 22 in the refractory lining wall W. This undirectional concentration of directed refractory patch material M assures that a proper repair is being made with little waste and undirected material being dispensed and lost within the confines of the furnace F.
As the nozzle 15's directs the flow of the refractory patch material M back towards the refractory wall W, the repair material M is deposited within the repair area building up thereagainst as seen in
By the positioning of the multiple nozzles 15 and the angular inclination of their tube elements 17, a conical spray pattern is achieved about the cylindrical body member 11 assuring a complete accurate patch to the interior refractory wall surface W. The refractory patch material M will dry and harden forming a heat resistance liner patch equal to that of the original refractory brick lining wall W typically used in such installations.
It will thus be seen that a new and novel refractory furnace repair device has been illustrated and described and it will be apparent to those skilled in the art that various changes and modifications may be made thereto without departing from the spirit of the invention. Therefore I claim:
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