A gypsum board forming device having a gypsum forming station including two laterally disposed edger shoes, and at least one laterally disposed edger bar clamping element on the edger bar. In one embodiment a laterally extending forming plate extends over the top surface of the formed gypsum board,
A gypsum board forming device having a gypsum forming station including two laterally disposed edger shoes, and at least one laterally disposed edger bar clamping element on the edger bar. In one embodiment a laterally extending forming plate extends over the top surface of the formed gypsum board, the forming plate including a plurality of micropore conduits through which pressurized water is supplied to provide a film of smoothing water over the top surface of the gypsum board. In another embodiment the edger shoes have a flapper mechanism for retaining unset slurry skimmed off the surface of the gypsum board by the edger bar.
대표청구항▼
1. In a gypsum board forming device comprising a supply of continuous sheet of inorganic fiber having random interstices between the fibers comprising said sheet, a gypsum slurry mixer including a gypsum delivery mechanism, at least one gypsum penetration station for penetrating a gypsum slurry into
1. In a gypsum board forming device comprising a supply of continuous sheet of inorganic fiber having random interstices between the fibers comprising said sheet, a gypsum slurry mixer including a gypsum delivery mechanism, at least one gypsum penetration station for penetrating a gypsum slurry into said random interstices between the inorganic fibers, a gypsum core delivery mechanism, a sheet joining mechanism for joining said continuous sheet of inorganic fiber to a core of gypsum, and a gypsum conveyor line, having a belt with a surface, for conveying formed gypsum board from the sheet joining mechanism, and a gypsum forming station assembly comprising:a) two laterally disposed edger shoes having at least one laterally disposed edger bar clamping element attached to said edger shoes; b) at least one laterally extending forming plate, having two ends, extending over a top surface of the formed gypsum board and between said edger bar clamping element so that the at least one forming plate rides over and smoothes said gypsum board top surface, at least a portion of said at least one forming plate having a plurality of micropore conduits connected to a source of pressurized water and terminating at the board contact surface of the at least one forming plate in a plurality of microporous apertures, wherein during operation, the microporous apertures provide a film of water over the top surface of the formed gypsum board, which in conjunction with the force exerted by the board contact surface of said at least one forming plate on said board surface, produces a very smooth front face surface thereon. 2. A gypsum forming station assembly according to claim 1 wherein said source of pressurized water is connected to said plurality of micropore conduits through a manifold.3. A gypsum forming station assembly according to claim 1 wherein said source of pressurized water provides a continuous film of water over the surface of the top surface of the gypsum board product.4. A gypsum forming station assembly according to claim 1 wherein said pressurized water in said source includes chemical additives.5. In a gypsum board forming device comprising a supply of continuous sheet of inorganic fiber having random interstices between the fibers comprising said sheet, a gypsum slurry mixer including a gypsum delivery mechanism, at least one gypsum penetration station for penetrating a gypsum slurry into said random interstices between the inorganic fibers, a gypsum core delivery mechanism, a sheet joining mechanism for joining said continuous sheet of inorganic fiber to a core of gypsum, and a gypsum conveyor line, having a belt with a surface, for conveying formed gypsum board from the sheet joining mechanism, an edger bar assembly comprising:a) two laterally disposed edger shoes having a bottom surface adapted to ride on the belt surface; b) laterally disposed edger bar clamping elements attached to said edger shoes; c) a longitudinal edger bar, having two ends, extending over said belt surface and between said edger bar clamping elements so that each end of said edger bar is disposed within one of said laterally disposed edger bar clamping elements; and d) each edger shoe having a flapper edge mechanism attached thereto, said flapper edge mechanism having an inboard surface abutting the edge of the gypsum board for retaining unset slurry skimmed off the surface of the wet gypsum board by said edger bar from overflowing onto the belt. 6. In a gypsum board forming device according to claim 5, wherein said edger bar further comprises a rounded leading bottom edge for skimming over the surface of the wet gypsum board.7. In a gypsum board forming device according to claim 5 further comprising an acrylic coating application station for applying acrylic on at least one of said gypsum board surfaces by flood coating.8. In a gypsum board forming device comprising a supply of continuous sheet of inorganic fiber having random interstices between the fibers comprising said sheet, a gypsum slurry mixer including a gypsum delivery mechanism, at least one gypsum penetration station for penetrating a gypsum slurry into said random interstices between the inorganic fibers, a gypsum core delivery mechanism, a sheet joining mechanism for joining said continuous sheet of inorganic fiber to a core of gypsum, and a gypsum conveyor line, having a belt with a surface, for conveying formed gypsum board from the sheet joining mechanism, an edger bar assembly comprising:a) at least two edger bar mounting bases, one each mounted at a lateral edge of said edger bar assembly; b) two laterally disposed arms, one each attached to each edger bar mounting base; c) a longitudinal edger bar, having two ends, extending between said at least two edger bar mounting bases; d) laterally disposed edger bar clamping elements attached to said edger bar; e) each mounting base having a flapper edge mechanism attached thereto, said flapper edge mechanism having an inboard surface abutting the edge of the gypsum board for retaining unset slurry skimmed off the surface of the wet gypsum board by said edger bar from overflowing onto the belt. 9. In a gypsum board forming device according to claim 8 wherein said flapper edge mechanism further comprising at least one flapper disposed at the lateral edges of the edger bar assembly, said flappers comprising a smooth surface and having a slippery or non-stick material.10. In a gypsum board forming device according to claim 9 wherein said slippery or non-stick material further comprises at least one compound selected from a group consisting of polytetrafluorethylene, tetrafluoroethylene fluorocarbon and fluorinated ethylene propylene.11. In a gypsum board forming device according to claim 8, said edger bar further comprising a bottom edge for skimming over the surface of the wet gypsum board and a pre-forming plate disposed at the leading edge of the edger bar, said pre-forming plate having an angle relative to the surface of said bottom edge.12. In a gypsum board forming device according to claim 11, wherein said angle is in a range of from about 30° to about 60°.13. In a gypsum board forming device according to claim 11, wherein said angle is about 45°.
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이 특허에 인용된 특허 (37)
Phillips John L. ; Fraley Herman C., Apparatus for manufacturing gypsum board.
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Koval, Francis J.; Neal, David J.; Silversides, Richard; Riccio, Jr., Joseph; Raymond, Charles J.; Cummins, Felmer F., Interior wallboard and method of making same.
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